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|
/*
* budget-ci.c: driver for the SAA7146 based Budget DVB cards
*
* Compiled from various sources by Michael Hunold <michael@mihu.de>
*
* msp430 IR support contributed by Jack Thomasson <jkt@Helius.COM>
* partially based on the Siemens DVB driver by Ralph+Marcus Metzler
*
* CI interface support (c) 2004 Andrew de Quincey <adq_dvb@lidskialf.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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
* Or, point your browser to http://www.gnu.org/copyleft/gpl.html
*
*
* the project's page is at http://www.linuxtv.org/dvb/
*/
#include <linux/module.h>
#include <linux/errno.h>
#include <linux/slab.h>
#include <linux/interrupt.h>
#include <linux/input.h>
#include <linux/spinlock.h>
#include <media/ir-common.h>
#include "budget.h"
#include "dvb_ca_en50221.h"
#include "stv0299.h"
#include "stv0297.h"
#include "tda1004x.h"
#include "stb0899_drv.h"
#include "stb0899_reg.h"
#include "stb6100.h"
#include "lnbp21.h"
#include "bsbe1.h"
#include "bsru6.h"
#include "tda1002x.h"
#include "tda827x.h"
/*
* Regarding DEBIADDR_IR:
* Some CI modules hang if random addresses are read.
* Using address 0x4000 for the IR read means that we
* use the same address as for CI version, which should
* be a safe default.
*/
#define DEBIADDR_IR 0x4000
#define DEBIADDR_CICONTROL 0x0000
#define DEBIADDR_CIVERSION 0x4000
#define DEBIADDR_IO 0x1000
#define DEBIADDR_ATTR 0x3000
#define CICONTROL_RESET 0x01
#define CICONTROL_ENABLETS 0x02
#define CICONTROL_CAMDETECT 0x08
#define DEBICICTL 0x00420000
#define DEBICICAM 0x02420000
#define SLOTSTATUS_NONE 1
#define SLOTSTATUS_PRESENT 2
#define SLOTSTATUS_RESET 4
#define SLOTSTATUS_READY 8
#define SLOTSTATUS_OCCUPIED (SLOTSTATUS_PRESENT|SLOTSTATUS_RESET|SLOTSTATUS_READY)
/*
* Milliseconds during which a key is regarded as pressed.
* If an identical command arrives within this time, the timer will start over.
*/
#define IR_KEYPRESS_TIMEOUT 250
/* RC5 device wildcard */
#define IR_DEVICE_ANY 255
static int rc5_device = -1;
module_param(rc5_device, int, 0644);
MODULE_PARM_DESC(rc5_device, "only IR commands to given RC5 device (device = 0 - 31, any device = 255, default: autodetect)");
static int ir_debug;
module_param(ir_debug, int, 0644);
MODULE_PARM_DESC(ir_debug, "enable debugging information for IR decoding");
DVB_DEFINE_MOD_OPT_ADAPTER_NR(adapter_nr);
struct budget_ci_ir {
struct input_dev *dev;
struct tasklet_struct msp430_irq_tasklet;
struct timer_list timer_keyup;
char name[72]; /* 40 + 32 for (struct saa7146_dev).name */
char phys[32];
struct ir_input_state state;
int rc5_device;
u32 last_raw;
u32 ir_key;
bool have_command;
};
struct budget_ci {
struct budget budget;
struct tasklet_struct ciintf_irq_tasklet;
int slot_status;
int ci_irq;
struct dvb_ca_en50221 ca;
struct budget_ci_ir ir;
u8 tuner_pll_address; /* used for philips_tdm1316l configs */
};
static void msp430_ir_keyup(unsigned long data)
{
struct budget_ci_ir *ir = (struct budget_ci_ir *) data;
ir_input_nokey(ir->dev, &ir->state);
}
static void msp430_ir_interrupt(unsigned long data)
{
struct budget_ci *budget_ci = (struct budget_ci *) data;
struct input_dev *dev = budget_ci->ir.dev;
u32 command = ttpci_budget_debiread(&budget_ci->budget, DEBINOSWAP, DEBIADDR_IR, 2, 1, 0) >> 8;
u32 raw;
/*
* The msp430 chip can generate two different bytes, command and device
*
* type1: X1CCCCCC, C = command bits (0 - 63)
* type2: X0TDDDDD, D = device bits (0 - 31), T = RC5 toggle bit
*
* Each signal from the remote control can generate one or more command
* bytes and one or more device bytes. For the repeated bytes, the
* highest bit (X) is set. The first command byte is always generated
* before the first device byte. Other than that, no specific order
* seems to apply. To make life interesting, bytes can also be lost.
*
* Only when we have a command and device byte, a keypress is
* generated.
*/
if (ir_debug)
printk("budget_ci: received byte 0x%02x\n", command);
/* Remove repeat bit, we use every command */
command = command & 0x7f;
/* Is this a RC5 command byte? */
if (command & 0x40) {
budget_ci->ir.have_command = true;
budget_ci->ir.ir_key = command & 0x3f;
return;
}
/* It's a RC5 device byte */
if (!budget_ci->ir.have_command)
return;
budget_ci->ir.have_command = false;
if (budget_ci->ir.rc5_device != IR_DEVICE_ANY &&
budget_ci->ir.rc5_device != (command & 0x1f))
return;
/* Is this a repeated key sequence? (same device, command, toggle) */
raw = budget_ci->ir.ir_key | (command << 8);
if (budget_ci->ir.last_raw != raw || !timer_pending(&budget_ci->ir.timer_keyup)) {
ir_input_nokey(dev, &budget_ci->ir.state);
ir_input_keydown(dev, &budget_ci->ir.state,
budget_ci->ir.ir_key, raw);
budget_ci->ir.last_raw = raw;
}
mod_timer(&budget_ci->ir.timer_keyup, jiffies + msecs_to_jiffies(IR_KEYPRESS_TIMEOUT));
}
static int msp430_ir_init(struct budget_ci *budget_ci)
{
struct saa7146_dev *saa = budget_ci->budget.dev;
struct input_dev *input_dev = budget_ci->ir.dev;
int error;
budget_ci->ir.dev = input_dev = input_allocate_device();
if (!input_dev) {
printk(KERN_ERR "budget_ci: IR interface initialisation failed\n");
error = -ENOMEM;
goto out1;
}
snprintf(budget_ci->ir.name, sizeof(budget_ci->ir.name),
"Budget-CI dvb ir receiver %s", saa->name);
snprintf(budget_ci->ir.phys, sizeof(budget_ci->ir.phys),
"pci-%s/ir0", pci_name(saa->pci));
input_dev->name = budget_ci->ir.name;
input_dev->phys = budget_ci->ir.phys;
input_dev->id.bustype = BUS_PCI;
input_dev->id.version = 1;
if (saa->pci->subsystem_vendor) {
input_dev->id.vendor = saa->pci->subsystem_vendor;
input_dev->id.product = saa->pci->subsystem_device;
} else {
input_dev->id.vendor = saa->pci->vendor;
input_dev->id.product = saa->pci->device;
}
input_dev->dev.parent = &saa->pci->dev;
/* Select keymap and address */
switch (budget_ci->budget.dev->pci->subsystem_device) {
case 0x100c:
case 0x100f:
case 0x1011:
case 0x1012:
/* The hauppauge keymap is a superset of these remotes */
ir_input_init(input_dev, &budget_ci->ir.state,
IR_TYPE_RC5, ir_codes_hauppauge_new);
if (rc5_device < 0)
budget_ci->ir.rc5_device = 0x1f;
else
budget_ci->ir.rc5_device = rc5_device;
break;
case 0x1010:
case 0x1017:
case 0x101a:
/* for the Technotrend 1500 bundled remote */
ir_input_init(input_dev, &budget_ci->ir.state,
IR_TYPE_RC5, ir_codes_tt_1500);
if (rc5_device < 0)
budget_ci->ir.rc5_device = IR_DEVICE_ANY;
else
budget_ci->ir.rc5_device = rc5_device;
break;
default:
/* unknown remote */
ir_input_init(input_dev, &budget_ci->ir.state,
IR_TYPE_RC5, ir_codes_budget_ci_old);
if (rc5_device < 0)
budget_ci->ir.rc5_device = IR_DEVICE_ANY;
else
budget_ci->ir.rc5_device = rc5_device;
break;
}
/* initialise the key-up timeout handler */
init_timer(&budget_ci->ir.timer_keyup);
budget_ci->ir.timer_keyup.function = msp430_ir_keyup;
budget_ci->ir.timer_keyup.data = (unsigned long) &budget_ci->ir;
budget_ci->ir.last_raw = 0xffff; /* An impossible value */
error = input_register_device(input_dev);
if (error) {
printk(KERN_ERR "budget_ci: could not init driver for IR device (code %d)\n", error);
goto out2;
}
/* note: these must be after input_register_device */
input_dev->rep[REP_DELAY] = 400;
input_dev->rep[REP_PERIOD] = 250;
tasklet_init(&budget_ci->ir.msp430_irq_tasklet, msp430_ir_interrupt,
(unsigned long) budget_ci);
SAA7146_IER_ENABLE(saa, MASK_06);
saa7146_setgpio(saa, 3, SAA7146_GPIO_IRQHI);
return 0;
out2:
input_free_device(input_dev);
out1:
return error;
}
static void msp430_ir_deinit(struct budget_ci *budget_ci)
{
struct saa7146_dev *saa = budget_ci->budget.dev;
struct input_dev *dev = budget_ci->ir.dev;
SAA7146_IER_DISABLE(saa, MASK_06);
saa7146_setgpio(saa, 3, SAA7146_GPIO_INPUT);
tasklet_kill(&budget_ci->ir.msp430_irq_tasklet);
del_timer_sync(&dev->timer);
ir_input_nokey(dev, &budget_ci->ir.state);
input_unregister_device(dev);
}
static int ciintf_read_attribute_mem(struct dvb_ca_en50221 *ca, int slot, int address)
{
struct budget_ci *budget_ci = (struct budget_ci *) ca->data;
if (slot != 0)
return -EINVAL;
return ttpci_budget_debiread(&budget_ci->budget, DEBICICAM,
DEBIADDR_ATTR | (address & 0xfff), 1, 1, 0);
}
static int ciintf_write_attribute_mem(struct dvb_ca_en50221 *ca, int slot, int address, u8 value)
{
struct budget_ci *budget_ci = (struct budget_ci *) ca->data;
if (slot != 0)
return -EINVAL;
return ttpci_budget_debiwrite(&budget_ci->budget, DEBICICAM,
DEBIADDR_ATTR | (address & 0xfff), 1, value, 1, 0);
}
static int ciintf_read_cam_control(struct dvb_ca_en50221 *ca, int slot, u8 address)
{
struct budget_ci *budget_ci = (struct budget_ci *) ca->data;
if (slot != 0)
return -EINVAL;
return ttpci_budget_debiread(&budget_ci->budget, DEBICICAM,
DEBIADDR_IO | (address & 3), 1, 1, 0);
}
static int ciintf_write_cam_control(struct dvb_ca_en50221 *ca, int slot, u8 address, u8 value)
{
struct budget_ci *budget_ci = (struct budget_ci *) ca->data;
if (slot != 0)
return -EINVAL;
return ttpci_budget_debiwrite(&budget_ci->budget, DEBICICAM,
DEBIADDR_IO | (address & 3), 1, value, 1, 0);
}
static int ciintf_slot_reset(struct dvb_ca_en50221 *ca, int slot)
{
struct budget_ci *budget_ci = (struct budget_ci *) ca->data;
struct saa7146_dev *saa = budget_ci->budget.dev;
if (slot != 0)
return -EINVAL;
if (budget_ci->ci_irq) {
// trigger on RISING edge during reset so we know when READY is re-asserted
saa7146_setgpio(saa, 0, SAA7146_GPIO_IRQHI);
}
budget_ci->slot_status = SLOTSTATUS_RESET;
ttpci_budget_debiwrite(&budget_ci->budget, DEBICICTL, DEBIADDR_CICONTROL, 1, 0, 1, 0);
msleep(1);
ttpci_budget_debiwrite(&budget_ci->budget, DEBICICTL, DEBIADDR_CICONTROL, 1,
CICONTROL_RESET, 1, 0);
saa7146_setgpio(saa, 1, SAA7146_GPIO_OUTHI);
ttpci_budget_set_video_port(saa, BUDGET_VIDEO_PORTB);
return 0;
}
static int ciintf_slot_shutdown(struct dvb_ca_en50221 *ca, int slot)
{
struct budget_ci *budget_ci = (struct budget_ci *) ca->data;
struct saa7146_dev *saa = budget_ci->budget.dev;
if (slot != 0)
return -EINVAL;
saa7146_setgpio(saa, 1, SAA7146_GPIO_OUTHI);
ttpci_budget_set_video_port(saa, BUDGET_VIDEO_PORTB);
return 0;
}
static int ciintf_slot_ts_enable(struct dvb_ca_en50221 *ca, int slot)
{
struct budget_ci *budget_ci = (struct budget_ci *) ca->data;
struct saa7146_dev *saa = budget_ci->budget.dev;
int tmp;
if (slot != 0)
return -EINVAL;
saa7146_setgpio(saa, 1, SAA7146_GPIO_OUTLO);
tmp = ttpci_budget_debiread(&budget_ci->budget, DEBICICTL, DEBIADDR_CICONTROL, 1, 1, 0);
ttpci_budget_debiwrite(&budget_ci->budget, DEBICICTL, DEBIADDR_CICONTROL, 1,
tmp | CICONTROL_ENABLETS, 1, 0);
ttpci_budget_set_video_port(saa, BUDGET_VIDEO_PORTA);
return 0;
}
static void ciintf_interrupt(unsigned long data)
{
struct budget_ci *budget_ci = (struct budget_ci *) data;
struct saa7146_dev *saa = budget_ci->budget.dev;
unsigned int flags;
// ensure we don't get spurious IRQs during initialisation
if (!budget_ci->budget.ci_present)
return;
// read the CAM status
flags = ttpci_budget_debiread(&budget_ci->budget, DEBICICTL, DEBIADDR_CICONTROL, 1, 1, 0);
if (flags & CICONTROL_CAMDETECT) {
// GPIO should be set to trigger on falling edge if a CAM is present
saa7146_setgpio(saa, 0, SAA7146_GPIO_IRQLO);
if (budget_ci->slot_status & SLOTSTATUS_NONE) {
// CAM insertion IRQ
budget_ci->slot_status = SLOTSTATUS_PRESENT;
dvb_ca_en50221_camchange_irq(&budget_ci->ca, 0,
DVB_CA_EN50221_CAMCHANGE_INSERTED);
} else if (budget_ci->slot_status & SLOTSTATUS_RESET) {
// CAM ready (reset completed)
budget_ci->slot_status = SLOTSTATUS_READY;
dvb_ca_en50221_camready_irq(&budget_ci->ca, 0);
} else if (budget_ci->slot_status & SLOTSTATUS_READY) {
// FR/DA IRQ
dvb_ca_en50221_frda_irq(&budget_ci->ca, 0);
}
} else {
// trigger on rising edge if a CAM is not present - when a CAM is inserted, we
// only want to get the IRQ when it sets READY. If we trigger on the falling edge,
// the CAM might not actually be ready yet.
saa7146_setgpio(saa, 0, SAA7146_GPIO_IRQHI);
// generate a CAM removal IRQ if we haven't already
if (budget_ci->slot_status & SLOTSTATUS_OCCUPIED) {
// CAM removal IRQ
budget_ci->slot_status = SLOTSTATUS_NONE;
dvb_ca_en50221_camchange_irq(&budget_ci->ca, 0,
DVB_CA_EN50221_CAMCHANGE_REMOVED);
}
}
}
static int ciintf_poll_slot_status(struct dvb_ca_en50221 *ca, int slot, int open)
{
struct budget_ci *budget_ci = (struct budget_ci *) ca->data;
unsigned int flags;
// ensure we don't get spurious IRQs during initialisation
if (!budget_ci->budget.ci_present)
return -EINVAL;
// read the CAM status
flags = ttpci_budget_debiread(&budget_ci->budget, DEBICICTL, DEBIADDR_CICONTROL, 1, 1, 0);
if (flags & CICONTROL_CAMDETECT) {
// mark it as present if it wasn't before
if (budget_ci->slot_status & SLOTSTATUS_NONE) {
budget_ci->slot_status = SLOTSTATUS_PRESENT;
}
// during a RESET, we check if we can read from IO memory to see when CAM is ready
if (budget_ci->slot_status & SLOTSTATUS_RESET) {
if (ciintf_read_attribute_mem(ca, slot, 0) == 0x1d) {
budget_ci->slot_status = SLOTSTATUS_READY;
}
}
} else {
budget_ci->slot_status = SLOTSTATUS_NONE;
}
if (budget_ci->slot_status != SLOTSTATUS_NONE) {
if (budget_ci->slot_status & SLOTSTATUS_READY) {
return DVB_CA_EN50221_POLL_CAM_PRESENT | DVB_CA_EN50221_POLL_CAM_READY;
}
return DVB_CA_EN50221_POLL_CAM_PRESENT;
}
return 0;
}
static int ciintf_init(struct budget_ci *budget_ci)
{
struct saa7146_dev *saa = budget_ci->budget.dev;
int flags;
int result;
int ci_version;
int ca_flags;
memset(&budget_ci->ca, 0, sizeof(struct dvb_ca_en50221));
// enable DEBI pins
saa7146_write(saa, MC1, MASK_27 | MASK_11);
// test if it is there
ci_version = ttpci_budget_debiread(&budget_ci->budget, DEBICICTL, DEBIADDR_CIVERSION, 1, 1, 0);
if ((ci_version & 0xa0) != 0xa0) {
result = -ENODEV;
goto error;
}
// determine whether a CAM is present or not
flags = ttpci_budget_debiread(&budget_ci->budget, DEBICICTL, DEBIADDR_CICONTROL, 1, 1, 0);
budget_ci->slot_status = SLOTSTATUS_NONE;
if (flags & CICONTROL_CAMDETECT)
budget_ci->slot_status = SLOTSTATUS_PRESENT;
// version 0xa2 of the CI firmware doesn't generate interrupts
if (ci_version == 0xa2) {
ca_flags = 0;
budget_ci->ci_irq = 0;
} else {
ca_flags = DVB_CA_EN50221_FLAG_IRQ_CAMCHANGE |
DVB_CA_EN50221_FLAG_IRQ_FR |
DVB_CA_EN50221_FLAG_IRQ_DA;
budget_ci->ci_irq = 1;
}
// register CI interface
budget_ci->ca.owner = THIS_MODULE;
budget_ci->ca.read_attribute_mem = ciintf_read_attribute_mem;
budget_ci->ca.write_attribute_mem = ciintf_write_attribute_mem;
budget_ci->ca.read_cam_control = ciintf_read_cam_control;
budget_ci->ca.write_cam_control = ciintf_write_cam_control;
budget_ci->ca.slot_reset = ciintf_slot_reset;
budget_ci->ca.slot_shutdown = ciintf_slot_shutdown;
budget_ci->ca.slot_ts_enable = ciintf_slot_ts_enable;
budget_ci->ca.poll_slot_status = ciintf_poll_slot_status;
budget_ci->ca.data = budget_ci;
if ((result = dvb_ca_en50221_init(&budget_ci->budget.dvb_adapter,
&budget_ci->ca,
ca_flags, 1)) != 0) {
printk("budget_ci: CI interface detected, but initialisation failed.\n");
goto error;
}
// Setup CI slot IRQ
if (budget_ci->ci_irq) {
tasklet_init(&budget_ci->ciintf_irq_tasklet, ciintf_interrupt, (unsigned long) budget_ci);
if (budget_ci->slot_status != SLOTSTATUS_NONE) {
saa7146_setgpio(saa, 0, SAA7146_GPIO_IRQLO);
} else {
saa7146_setgpio(saa, 0, SAA7146_GPIO_IRQHI);
}
SAA7146_IER_ENABLE(saa, MASK_03);
}
// enable interface
ttpci_budget_debiwrite(&budget_ci->budget, DEBICICTL, DEBIADDR_CICONTROL, 1,
CICONTROL_RESET, 1, 0);
// success!
printk("budget_ci: CI interface initialised\n");
budget_ci->budget.ci_present = 1;
// forge a fake CI IRQ so the CAM state is setup correctly
if (budget_ci->ci_irq) {
flags = DVB_CA_EN50221_CAMCHANGE_REMOVED;
if (budget_ci->slot_status != SLOTSTATUS_NONE)
flags = DVB_CA_EN50221_CAMCHANGE_INSERTED;
dvb_ca_en50221_camchange_irq(&budget_ci->ca, 0, flags);
}
return 0;
error:
saa7146_write(saa, MC1, MASK_27);
return result;
}
static void ciintf_deinit(struct budget_ci *budget_ci)
{
struct saa7146_dev *saa = budget_ci->budget.dev;
// disable CI interrupts
if (budget_ci->ci_irq) {
SAA7146_IER_DISABLE(saa, MASK_03);
saa7146_setgpio(saa, 0, SAA7146_GPIO_INPUT);
tasklet_kill(&budget_ci->ciintf_irq_tasklet);
}
// reset interface
ttpci_budget_debiwrite(&budget_ci->budget, DEBICICTL, DEBIADDR_CICONTROL, 1, 0, 1, 0);
msleep(1);
ttpci_budget_debiwrite(&budget_ci->budget, DEBICICTL, DEBIADDR_CICONTROL, 1,
CICONTROL_RESET, 1, 0);
// disable TS data stream to CI interface
saa7146_setgpio(saa, 1, SAA7146_GPIO_INPUT);
// release the CA device
dvb_ca_en50221_release(&budget_ci->ca);
// disable DEBI pins
saa7146_write(saa, MC1, MASK_27);
}
static void budget_ci_irq(struct saa7146_dev *dev, u32 * isr)
{
struct budget_ci *budget_ci = (struct budget_ci *) dev->ext_priv;
dprintk(8, "dev: %p, budget_ci: %p\n", dev, budget_ci);
if (*isr & MASK_06)
tasklet_schedule(&budget_ci->ir.msp430_irq_tasklet);
if (*isr & MASK_10)
ttpci_budget_irq10_handler(dev, isr);
if ((*isr & MASK_03) && (budget_ci->budget.ci_present) && (budget_ci->ci_irq))
tasklet_schedule(&budget_ci->ciintf_irq_tasklet);
}
static u8 philips_su1278_tt_inittab[] = {
0x01, 0x0f,
0x02, 0x30,
0x03, 0x00,
0x04, 0x5b,
0x05, 0x85,
0x06, 0x02,
0x07, 0x00,
0x08, 0x02,
0x09, 0x00,
0x0C, 0x01,
0x0D, 0x81,
0x0E, 0x44,
0x0f, 0x14,
0x10, 0x3c,
0x11, 0x84,
0x12, 0xda,
0x13, 0x97,
0x14, 0x95,
0x15, 0xc9,
0x16, 0x19,
0x17, 0x8c,
0x18, 0x59,
0x19, 0xf8,
0x1a, 0xfe,
0x1c, 0x7f,
0x1d, 0x00,
0x1e, 0x00,
0x1f, 0x50,
0x20, 0x00,
0x21, 0x00,
0x22, 0x00,
0x23, 0x00,
0x28, 0x00,
0x29, 0x28,
0x2a, 0x14,
0x2b, 0x0f,
0x2c, 0x09,
0x2d, 0x09,
0x31, 0x1f,
0x32, 0x19,
0x33, 0xfc,
0x34, 0x93,
0xff, 0xff
};
static int philips_su1278_tt_set_symbol_rate(struct dvb_frontend *fe, u32 srate, u32 ratio)
{
stv0299_writereg(fe, 0x0e, 0x44);
if (srate >= 10000000) {
stv0299_writereg(fe, 0x13, 0x97);
stv0299_writereg(fe, 0x14, 0x95);
stv0299_writereg(fe, 0x15, 0xc9);
stv0299_writereg(fe, 0x17, 0x8c);
stv0299_writereg(fe, 0x1a, 0xfe);
stv0299_writereg(fe, 0x1c, 0x7f);
stv0299_writereg(fe, 0x2d, 0x09);
} else {
stv0299_writereg(fe, 0x13, 0x99);
stv0299_writereg(fe, 0x14, 0x8d);
stv0299_writereg(fe, 0x15, 0xce);
stv0299_writereg(fe, 0x17, 0x43);
stv0299_writereg(fe, 0x1a, 0x1d);
stv0299_writereg(fe, 0x1c, 0x12);
stv0299_writereg(fe, 0x2d, 0x05);
}
stv0299_writereg(fe, 0x0e, 0x23);
stv0299_writereg(fe, 0x0f, 0x94);
stv0299_writereg(fe, 0x10, 0x39);
stv0299_writereg(fe, 0x15, 0xc9);
stv0299_writereg(fe, 0x1f, (ratio >> 16) & 0xff);
stv0299_writereg(fe, 0x20, (ratio >> 8) & 0xff);
stv0299_writereg(fe, 0x21, (ratio) & 0xf0);
return 0;
}
static int philips_su1278_tt_tuner_set_params(struct dvb_frontend *fe,
struct dvb_frontend_parameters *params)
{
struct budget_ci *budget_ci = (struct budget_ci *) fe->dvb->priv;
u32 div;
u8 buf[4];
struct i2c_msg msg = {.addr = 0x60,.flags = 0,.buf = buf,.len = sizeof(buf) };
if ((params->frequency < 950000) || (params->frequency > 2150000))
return -EINVAL;
div = (params->frequency + (500 - 1)) / 500; // round correctly
buf[0] = (div >> 8) & 0x7f;
buf[1] = div & 0xff;
buf[2] = 0x80 | ((div & 0x18000) >> 10) | 2;
buf[3] = 0x20;
if (params->u.qpsk.symbol_rate < 4000000)
buf[3] |= 1;
if (params->frequency < 1250000)
buf[3] |= 0;
else if (params->frequency < 1550000)
buf[3] |= 0x40;
else if (params->frequency < 2050000)
buf[3] |= 0x80;
else if (params->frequency < 2150000)
buf[3] |= 0xC0;
if (fe->ops.i2c_gate_ctrl)
fe->ops.i2c_gate_ctrl(fe, 1);
if (i2c_transfer(&budget_ci->budget.i2c_adap, &msg, 1) != 1)
return -EIO;
return 0;
}
static struct stv0299_config philips_su1278_tt_config = {
.demod_address = 0x68,
.inittab = philips_su1278_tt_inittab,
.mclk = 64000000UL,
.invert = 0,
.skip_reinit = 1,
.lock_output = STV0299_LOCKOUTPUT_1,
.volt13_op0_op1 = STV0299_VOLT13_OP1,
.min_delay_ms = 50,
.set_symbol_rate = philips_su1278_tt_set_symbol_rate,
};
static int philips_tdm1316l_tuner_init(struct dvb_frontend *fe)
{
struct budget_ci *budget_ci = (struct budget_ci *) fe->dvb->priv;
static u8 td1316_init[] = { 0x0b, 0xf5, 0x85, 0xab };
static u8 disable_mc44BC374c[] = { 0x1d, 0x74, 0xa0, 0x68 };
struct i2c_msg tuner_msg = {.addr = budget_ci->tuner_pll_address,.flags = 0,.buf = td1316_init,.len =
sizeof(td1316_init) };
// setup PLL configuration
if (fe->ops.i2c_gate_ctrl)
fe->ops.i2c_gate_ctrl(fe, 1);
if (i2c_transfer(&budget_ci->budget.i2c_adap, &tuner_msg, 1) != 1)
return -EIO;
msleep(1);
// disable the mc44BC374c (do not check for errors)
tuner_msg.addr = 0x65;
tuner_msg.buf = disable_mc44BC374c;
tuner_msg.len = sizeof(disable_mc44BC374c);
if (fe->ops.i2c_gate_ctrl)
fe->ops.i2c_gate_ctrl(fe, 1);
if (i2c_transfer(&budget_ci->budget.i2c_adap, &tuner_msg, 1) != 1) {
if (fe->ops.i2c_gate_ctrl)
fe->ops.i2c_gate_ctrl(fe, 1);
i2c_transfer(&budget_ci->budget.i2c_adap, &tuner_msg, 1);
}
return 0;
}
static int philips_tdm1316l_tuner_set_params(struct dvb_frontend *fe, struct dvb_frontend_parameters *params)
{
struct budget_ci *budget_ci = (struct budget_ci *) fe->dvb->priv;
u8 tuner_buf[4];
struct i2c_msg tuner_msg = {.addr = budget_ci->tuner_pll_address,.flags = 0,.buf = tuner_buf,.len = sizeof(tuner_buf) };
int tuner_frequency = 0;
u8 band, cp, filter;
// determine charge pump
tuner_frequency = params->frequency + 36130000;
if (tuner_frequency < 87000000)
return -EINVAL;
else if (tuner_frequency < 130000000)
cp = 3;
else if (tuner_frequency < 160000000)
cp = 5;
else if (tuner_frequency < 200000000)
cp = 6;
else if (tuner_frequency < 290000000)
cp = 3;
else if (tuner_frequency < 420000000)
cp = 5;
else if (tuner_frequency < 480000000)
cp = 6;
else if (tuner_frequency < 620000000)
cp = 3;
else if (tuner_frequency < 830000000)
cp = 5;
else if (tuner_frequency < 895000000)
cp = 7;
else
return -EINVAL;
// determine band
if (params->frequency < 49000000)
return -EINVAL;
else if (params->frequency < 159000000)
band = 1;
else if (params->frequency < 444000000)
band = 2;
else if (params->frequency < 861000000)
band = 4;
else
return -EINVAL;
// setup PLL filter and TDA9889
switch (params->u.ofdm.bandwidth) {
case BANDWIDTH_6_MHZ:
tda1004x_writereg(fe, 0x0C, 0x14);
filter = 0;
break;
case BANDWIDTH_7_MHZ:
tda1004x_writereg(fe, 0x0C, 0x80);
filter = 0;
break;
case BANDWIDTH_8_MHZ:
tda1004x_writereg(fe, 0x0C, 0x14);
filter = 1;
break;
default:
return -EINVAL;
}
// calculate divisor
// ((36130000+((1000000/6)/2)) + Finput)/(1000000/6)
tuner_frequency = (((params->frequency / 1000) * 6) + 217280) / 1000;
// setup tuner buffer
tuner_buf[0] = tuner_frequency >> 8;
tuner_buf[1] = tuner_frequency & 0xff;
tuner_buf[2] = 0xca;
tuner_buf[3] = (cp << 5) | (filter << 3) | band;
if (fe->ops.i2c_gate_ctrl)
fe->ops.i2c_gate_ctrl(fe, 1);
if (i2c_transfer(&budget_ci->budget.i2c_adap, &tuner_msg, 1) != 1)
return -EIO;
msleep(1);
return 0;
}
static int philips_tdm1316l_request_firmware(struct dvb_frontend *fe,
const struct firmware **fw, char *name)
{
struct budget_ci *budget_ci = (struct budget_ci *) fe->dvb->priv;
return request_firmware(fw, name, &budget_ci->budget.dev->pci->dev);
}
static struct tda1004x_config philips_tdm1316l_config = {
.demod_address = 0x8,
.invert = 0,
.invert_oclk = 0,
.xtal_freq = TDA10046_XTAL_4M,
.agc_config = TDA10046_AGC_DEFAULT,
.if_freq = TDA10046_FREQ_3617,
.request_firmware = philips_tdm1316l_request_firmware,
};
static struct tda1004x_config philips_tdm1316l_config_invert = {
.demod_address = 0x8,
.invert = 1,
.invert_oclk = 0,
.xtal_freq = TDA10046_XTAL_4M,
.agc_config = TDA10046_AGC_DEFAULT,
.if_freq = TDA10046_FREQ_3617,
.request_firmware = philips_tdm1316l_request_firmware,
};
static int dvbc_philips_tdm1316l_tuner_set_params(struct dvb_frontend *fe, struct dvb_frontend_parameters *params)
{
struct budget_ci *budget_ci = (struct budget_ci *) fe->dvb->priv;
u8 tuner_buf[5];
struct i2c_msg tuner_msg = {.addr = budget_ci->tuner_pll_address,
.flags = 0,
.buf = tuner_buf,
.len = sizeof(tuner_buf) };
int tuner_frequency = 0;
u8 band, cp, filter;
// determine charge pump
tuner_frequency = params->frequency + 36125000;
if (tuner_frequency < 87000000)
return -EINVAL;
else if (tuner_frequency < 130000000) {
cp = 3;
band = 1;
} else if (tuner_frequency < 160000000) {
cp = 5;
band = 1;
} else if (tuner_frequency < 200000000) {
cp = 6;
band = 1;
} else if (tuner_frequency < 290000000) {
cp = 3;
band = 2;
} else if (tuner_frequency < 420000000) {
cp = 5;
band = 2;
} else if (tuner_frequency < 480000000) {
cp = 6;
band = 2;
} else if (tuner_frequency < 620000000) {
cp = 3;
band = 4;
} else if (tuner_frequency < 830000000) {
cp = 5;
band = 4;
} else if (tuner_frequency < 895000000) {
cp = 7;
band = 4;
} else
return -EINVAL;
// assume PLL filter should always be 8MHz for the moment.
filter = 1;
// calculate divisor
tuner_frequency = (params->frequency + 36125000 + (62500/2)) / 62500;
// setup tuner buffer
tuner_buf[0] = tuner_frequency >> 8;
tuner_buf[1] = tuner_frequency & 0xff;
tuner_buf[2] = 0xc8;
tuner_buf[3] = (cp << 5) | (filter << 3) | band;
tuner_buf[4] = 0x80;
if (fe->ops.i2c_gate_ctrl)
fe->ops.i2c_gate_ctrl(fe, 1);
if (i2c_transfer(&budget_ci->budget.i2c_adap, &tuner_msg, 1) != 1)
return -EIO;
msleep(50);
if (fe->ops.i2c_gate_ctrl)
fe->ops.i2c_gate_ctrl(fe, 1);
if (i2c_transfer(&budget_ci->budget.i2c_adap, &tuner_msg, 1) != 1)
return -EIO;
msleep(1);
return 0;
}
static u8 dvbc_philips_tdm1316l_inittab[] = {
0x80, 0x01,
0x80, 0x00,
0x81, 0x01,
0x81, 0x00,
0x00, 0x09,
0x01, 0x69,
0x03, 0x00,
0x04, 0x00,
0x07, 0x00,
0x08, 0x00,
0x20, 0x00,
0x21, 0x40,
0x22, 0x00,
0x23, 0x00,
0x24, 0x40,
0x25, 0x88,
0x30, 0xff,
0x31, 0x00,
0x32, 0xff,
0x33, 0x00,
0x34, 0x50,
0x35, 0x7f,
0x36, 0x00,
0x37, 0x20,
0x38, 0x00,
0x40, 0x1c,
0x41, 0xff,
0x42, 0x29,
0x43, 0x20,
0x44, 0xff,
0x45, 0x00,
0x46, 0x00,
0x49, 0x04,
0x4a, 0x00,
0x4b, 0x7b,
0x52, 0x30,
0x55, 0xae,
0x56, 0x47,
0x57, 0xe1,
0x58, 0x3a,
0x5a, 0x1e,
0x5b, 0x34,
0x60, 0x00,
0x63, 0x00,
0x64, 0x00,
0x65, 0x00,
0x66, 0x00,
0x67, 0x00,
0x68, 0x00,
0x69, 0x00,
0x6a, 0x02,
0x6b, 0x00,
0x70, 0xff,
0x71, 0x00,
0x72, 0x00,
0x73, 0x00,
0x74, 0x0c,
0x80, 0x00,
0x81, 0x00,
0x82, 0x00,
0x83, 0x00,
0x84, 0x04,
0x85, 0x80,
0x86, 0x24,
0x87, 0x78,
0x88, 0x10,
0x89, 0x00,
0x90, 0x01,
0x91, 0x01,
0xa0, 0x04,
0xa1, 0x00,
0xa2, 0x00,
0xb0, 0x91,
0xb1, 0x0b,
0xc0, 0x53,
0xc1, 0x70,
0xc2, 0x12,
0xd0, 0x00,
0xd1, 0x00,
0xd2, 0x00,
0xd3, 0x00,
0xd4, 0x00,
0xd5, 0x00,
0xde, 0x00,
0xdf, 0x00,
0x61, 0x38,
0x62, 0x0a,
0x53, 0x13,
0x59, 0x08,
0xff, 0xff,
};
static struct stv0297_config dvbc_philips_tdm1316l_config = {
.demod_address = 0x1c,
.inittab = dvbc_philips_tdm1316l_inittab,
.invert = 0,
.stop_during_read = 1,
};
static struct tda10023_config tda10023_config = {
.demod_address = 0xc,
.invert = 0,
.xtal = 16000000,
.pll_m = 11,
.pll_p = 3,
.pll_n = 1,
.deltaf = 0xa511,
};
/* TT S2-3200 DVB-S (STB0899) Inittab */
static const struct stb0899_s1_reg tt3200_stb0899_s1_init_1[] = {
// 0x0000000b , /* SYSREG */
{ STB0899_DEV_ID , 0x81 },
{ STB0899_DISCNTRL1 , 0x32 },
{ STB0899_DISCNTRL2 , 0x80 },
{ STB0899_DISRX_ST0 , 0x04 },
{ STB0899_DISRX_ST1 , 0x00 },
{ STB0899_DISPARITY , 0x00 },
{ STB0899_DISFIFO , 0x00 },
{ STB0899_DISSTATUS , 0x20 },
{ STB0899_DISF22 , 0x8c },
{ STB0899_DISF22RX , 0x9a },
//SYSREG ?
{ STB0899_ACRPRESC , 0x11 },
{ STB0899_ACRDIV1 , 0x0a },
{ STB0899_ACRDIV2 , 0x05 },
{ STB0899_DACR1 , 0x00 },
{ STB0899_DACR2 , 0x00 },
{ STB0899_OUTCFG , 0x00 },
{ STB0899_MODECFG , 0x00 },
{ STB0899_IRQSTATUS_3 , 0x30 },
{ STB0899_IRQSTATUS_2 , 0x00 },
{ STB0899_IRQSTATUS_1 , 0x00 },
{ STB0899_IRQSTATUS_0 , 0x00 },
{ STB0899_IRQMSK_3 , 0xf3 },
{ STB0899_IRQMSK_2 , 0xfc },
{ STB0899_IRQMSK_1 , 0xff },
{ STB0899_IRQMSK_0 , 0xff },
{ STB0899_IRQCFG , 0x00 },
{ STB0899_I2CCFG , 0x88 },
{ STB0899_I2CRPT , 0x48 }, /* 12k Pullup */
{ STB0899_IOPVALUE5 , 0x00 },
{ STB0899_IOPVALUE4 , 0x20 },
{ STB0899_IOPVALUE3 , 0xc9 },
{ STB0899_IOPVALUE2 , 0x90 },
{ STB0899_IOPVALUE1 , 0x40 },
{ STB0899_IOPVALUE0 , 0x00 },
{ STB0899_GPIO00CFG , 0x82 },
{ STB0899_GPIO01CFG , 0x82 },
{ STB0899_GPIO02CFG , 0x82 },
{ STB0899_GPIO03CFG , 0x82 },
{ STB0899_GPIO04CFG , 0x82 },
{ STB0899_GPIO05CFG , 0x82 },
{ STB0899_GPIO06CFG , 0x82 },
{ STB0899_GPIO07CFG , 0x82 },
{ STB0899_GPIO08CFG , 0x82 },
{ STB0899_GPIO09CFG , 0x82 },
{ STB0899_GPIO10CFG , 0x82 },
{ STB0899_GPIO11CFG , 0x82 },
{ STB0899_GPIO12CFG , 0x82 },
{ STB0899_GPIO13CFG , 0x82 },
{ STB0899_GPIO14CFG , 0x82 },
{ STB0899_GPIO15CFG , 0x82 },
{ STB0899_GPIO16CFG , 0x82 },
{ STB0899_GPIO17CFG , 0x82 },
{ STB0899_GPIO18CFG , 0x82 },
{ STB0899_GPIO19CFG , 0x82 },
{ STB0899_GPIO20CFG , 0x82 },
{ STB0899_SDATCFG , 0xb8 },
{ STB0899_SCLTCFG , 0xba },
{ STB0899_AGCRFCFG , 0x1c }, /* 0x11 */
{ STB0899_GPIO22 , 0x82 }, /* AGCBB2CFG */
{ STB0899_GPIO21 , 0x91 }, /* AGCBB1CFG */
{ STB0899_DIRCLKCFG , 0x82 },
{ STB0899_CLKOUT27CFG , 0x7e },
{ STB0899_STDBYCFG , 0x82 },
{ STB0899_CS0CFG , 0x82 },
{ STB0899_CS1CFG , 0x82 },
{ STB0899_DISEQCOCFG , 0x20 },
{ STB0899_GPIO32CFG , 0x82 },
{ STB0899_GPIO33CFG , 0x82 },
{ STB0899_GPIO34CFG , 0x82 },
{ STB0899_GPIO35CFG , 0x82 },
{ STB0899_GPIO36CFG , 0x82 },
{ STB0899_GPIO37CFG , 0x82 },
{ STB0899_GPIO38CFG , 0x82 },
{ STB0899_GPIO39CFG , 0x82 },
{ STB0899_NCOARSE , 0x15 }, /* 0x15 = 27 Mhz Clock, F/3 = 198MHz, F/6 = 99MHz */
{ STB0899_SYNTCTRL , 0x02 }, /* 0x00 = CLK from CLKI, 0x02 = CLK from XTALI */
{ STB0899_FILTCTRL , 0x00 },
{ STB0899_SYSCTRL , 0x00 },
{ STB0899_STOPCLK1 , 0x20 },
{ STB0899_STOPCLK2 , 0x00 },
{ STB0899_INTBUFSTATUS , 0x00 },
{ STB0899_INTBUFCTRL , 0x0a },
{ 0xffff , 0xff },
};
static const struct stb0899_s2_reg tt3200_stb0899_s2_init_2[] = {
{ STB0899_OFF0_DMD_STATUS , STB0899_BASE_DMD_STATUS , 0x00000103 }, /* DMDSTATUS */
{ STB0899_OFF0_CRL_FREQ , STB0899_BASE_CRL_FREQ , 0x3ed1da56 }, /* CRLFREQ */
{ STB0899_OFF0_BTR_FREQ , STB0899_BASE_BTR_FREQ , 0x00004000 }, /* BTRFREQ */
{ STB0899_OFF0_IF_AGC_GAIN , STB0899_BASE_IF_AGC_GAIN , 0x00002ade }, /* IFAGCGAIN */
{ STB0899_OFF0_BB_AGC_GAIN , STB0899_BASE_BB_AGC_GAIN , 0x000001bc }, /* BBAGCGAIN */
{ STB0899_OFF0_DC_OFFSET , STB0899_BASE_DC_OFFSET , 0x00000200 }, /* DCOFFSET */
{ STB0899_OFF0_DMD_CNTRL , STB0899_BASE_DMD_CNTRL , 0x0000000f }, /* DMDCNTRL */
{ STB0899_OFF0_IF_AGC_CNTRL , STB0899_BASE_IF_AGC_CNTRL , 0x03fb4a20 }, /* IFAGCCNTRL */
{ STB0899_OFF0_BB_AGC_CNTRL , STB0899_BASE_BB_AGC_CNTRL , 0x00200c97 }, /* BBAGCCNTRL */
{ STB0899_OFF0_CRL_CNTRL , STB0899_BASE_CRL_CNTRL , 0x00000016 }, /* CRLCNTRL */
{ STB0899_OFF0_CRL_PHS_INIT , STB0899_BASE_CRL_PHS_INIT , 0x00000000 }, /* CRLPHSINIT */
{ STB0899_OFF0_CRL_FREQ_INIT , STB0899_BASE_CRL_FREQ_INIT , 0x00000000 }, /* CRLFREQINIT */
{ STB0899_OFF0_CRL_LOOP_GAIN , STB0899_BASE_CRL_LOOP_GAIN , 0x00000000 }, /* CRLLOOPGAIN */
{ STB0899_OFF0_CRL_NOM_FREQ , STB0899_BASE_CRL_NOM_FREQ , 0x3ed097b6 }, /* CRLNOMFREQ */
{ STB0899_OFF0_CRL_SWP_RATE , STB0899_BASE_CRL_SWP_RATE , 0x00000000 }, /* CRLSWPRATE */
{ STB0899_OFF0_CRL_MAX_SWP , STB0899_BASE_CRL_MAX_SWP , 0x00000000 }, /* CRLMAXSWP */
{ STB0899_OFF0_CRL_LK_CNTRL , STB0899_BASE_CRL_LK_CNTRL , 0x0f6cdc01 }, /* CRLLKCNTRL */
{ STB0899_OFF0_DECIM_CNTRL , STB0899_BASE_DECIM_CNTRL , 0x00000000 }, /* DECIMCNTRL */
{ STB0899_OFF0_BTR_CNTRL , STB0899_BASE_BTR_CNTRL , 0x00003993 }, /* BTRCNTRL */
{ STB0899_OFF0_BTR_LOOP_GAIN , STB0899_BASE_BTR_LOOP_GAIN , 0x000d3c6f }, /* BTRLOOPGAIN */
{ STB0899_OFF0_BTR_PHS_INIT , STB0899_BASE_BTR_PHS_INIT , 0x00000000 }, /* BTRPHSINIT */
{ STB0899_OFF0_BTR_FREQ_INIT , STB0899_BASE_BTR_FREQ_INIT , 0x00000000 }, /* BTRFREQINIT */
{ STB0899_OFF0_BTR_NOM_FREQ , STB0899_BASE_BTR_NOM_FREQ , 0x0238e38e }, /* BTRNOMFREQ */
{ STB0899_OFF0_BTR_LK_CNTRL , STB0899_BASE_BTR_LK_CNTRL , 0x00000000 }, /* BTRLKCNTRL */
{ STB0899_OFF0_DECN_CNTRL , STB0899_BASE_DECN_CNTRL , 0x00000000 }, /* DECNCNTRL */
{ STB0899_OFF0_TP_CNTRL , STB0899_BASE_TP_CNTRL , 0x00000000 }, /* TPCNTRL */
{ STB0899_OFF0_TP_BUF_STATUS , STB0899_BASE_TP_BUF_STATUS , 0x00000000 }, /* TPBUFSTATUS */
{ STB0899_OFF0_DC_ESTIM , STB0899_BASE_DC_ESTIM , 0x00000000 }, /* DCESTIM */
{ STB0899_OFF0_FLL_CNTRL , STB0899_BASE_FLL_CNTRL , 0x00000000 }, /* FLLCNTRL */
{ STB0899_OFF0_FLL_FREQ_WD , STB0899_BASE_FLL_FREQ_WD , 0x40070000 }, /* FLLFREQWD */
{ STB0899_OFF0_ANTI_ALIAS_SEL , STB0899_BASE_ANTI_ALIAS_SEL , 0x00000001 }, /* ANTIALIASSEL */
{ STB0899_OFF0_RRC_ALPHA , STB0899_BASE_RRC_ALPHA , 0x00000002 }, /* RRCALPHA */
{ STB0899_OFF0_DC_ADAPT_LSHFT , STB0899_BASE_DC_ADAPT_LSHFT , 0x00000000 }, /* DCADAPTISHFT */
{ STB0899_OFF0_IMB_OFFSET , STB0899_BASE_IMB_OFFSET , 0x0000fe01 }, /* IMBOFFSET */
{ STB0899_OFF0_IMB_ESTIMATE , STB0899_BASE_IMB_ESTIMATE , 0x00000000 }, /* IMBESTIMATE */
{ STB0899_OFF0_IMB_CNTRL , STB0899_BASE_IMB_CNTRL , 0x00000001 }, /* IMBCNTRL */
{ STB0899_OFF0_IF_AGC_CNTRL2 , STB0899_BASE_IF_AGC_CNTRL2 , 0x00005007 }, /* IFAGCCNTRL2 */
{ STB0899_OFF0_DMD_CNTRL2 , STB0899_BASE_DMD_CNTRL2 , 0x00000002 }, /* DMDCNTRL2 */
{ STB0899_OFF0_TP_BUFFER , STB0899_BASE_TP_BUFFER , 0x00000000 }, /* TPBUFFER */
{ STB0899_OFF0_TP_BUFFER1 , STB0899_BASE_TP_BUFFER1 , 0x00000000 }, /* TPBUFFER1 */
{ STB0899_OFF0_TP_BUFFER2 , STB0899_BASE_TP_BUFFER2 , 0x00000000 }, /* TPBUFFER2 */
{ STB0899_OFF0_TP_BUFFER3 , STB0899_BASE_TP_BUFFER3 , 0x00000000 }, /* TPBUFFER3 */
{ STB0899_OFF0_TP_BUFFER4 , STB0899_BASE_TP_BUFFER4 , 0x00000000 }, /* TPBUFFER4 */
{ STB0899_OFF0_TP_BUFFER5 , STB0899_BASE_TP_BUFFER5 , 0x00000000 }, /* TPBUFFER5 */
{ STB0899_OFF0_TP_BUFFER6 , STB0899_BASE_TP_BUFFER6 , 0x00000000 }, /* TPBUFFER6 */
{ STB0899_OFF0_TP_BUFFER7 , STB0899_BASE_TP_BUFFER7 , 0x00000000 }, /* TPBUFFER7 */
{ STB0899_OFF0_TP_BUFFER8 , STB0899_BASE_TP_BUFFER8 , 0x00000000 }, /* TPBUFFER8 */
{ STB0899_OFF0_TP_BUFFER9 , STB0899_BASE_TP_BUFFER9 , 0x00000000 }, /* TPBUFFER9 */
{ STB0899_OFF0_TP_BUFFER10 , STB0899_BASE_TP_BUFFER10 , 0x00000000 }, /* TPBUFFER10 */
{ STB0899_OFF0_TP_BUFFER11 , STB0899_BASE_TP_BUFFER11 , 0x00000000 }, /* TPBUFFER11 */
{ STB0899_OFF0_TP_BUFFER12 , STB0899_BASE_TP_BUFFER12 , 0x00000000 }, /* TPBUFFER12 */
{ STB0899_OFF0_TP_BUFFER13 , STB0899_BASE_TP_BUFFER13 , 0x00000000 }, /* TPBUFFER13 */
{ STB0899_OFF0_TP_BUFFER14 , STB0899_BASE_TP_BUFFER14 , 0x00000000 }, /* TPBUFFER14 */
{ STB0899_OFF0_TP_BUFFER15 , STB0899_BASE_TP_BUFFER15 , 0x00000000 }, /* TPBUFFER15 */
{ STB0899_OFF0_TP_BUFFER16 , STB0899_BASE_TP_BUFFER16 , 0x0000ff00 }, /* TPBUFFER16 */
{ STB0899_OFF0_TP_BUFFER17 , STB0899_BASE_TP_BUFFER17 , 0x00000100 }, /* TPBUFFER17 */
{ STB0899_OFF0_TP_BUFFER18 , STB0899_BASE_TP_BUFFER18 , 0x0000fe01 }, /* TPBUFFER18 */
{ STB0899_OFF0_TP_BUFFER19 , STB0899_BASE_TP_BUFFER19 , 0x000004fe }, /* TPBUFFER19 */
{ STB0899_OFF0_TP_BUFFER20 , STB0899_BASE_TP_BUFFER20 , 0x0000cfe7 }, /* TPBUFFER20 */
{ STB0899_OFF0_TP_BUFFER21 , STB0899_BASE_TP_BUFFER21 , 0x0000bec6 }, /* TPBUFFER21 */
{ STB0899_OFF0_TP_BUFFER22 , STB0899_BASE_TP_BUFFER22 , 0x0000c2bf }, /* TPBUFFER22 */
{ STB0899_OFF0_TP_BUFFER23 , STB0899_BASE_TP_BUFFER23 , 0x0000c1c1 }, /* TPBUFFER23 */
{ STB0899_OFF0_TP_BUFFER24 , STB0899_BASE_TP_BUFFER24 , 0x0000c1c1 }, /* TPBUFFER24 */
{ STB0899_OFF0_TP_BUFFER25 , STB0899_BASE_TP_BUFFER25 , 0x0000c1c1 }, /* TPBUFFER25 */
{ STB0899_OFF0_TP_BUFFER26 , STB0899_BASE_TP_BUFFER26 , 0x0000c1c1 }, /* TPBUFFER26 */
{ STB0899_OFF0_TP_BUFFER27 , STB0899_BASE_TP_BUFFER27 , 0x0000c1c0 }, /* TPBUFFER27 */
{ STB0899_OFF0_TP_BUFFER28 , STB0899_BASE_TP_BUFFER28 , 0x0000c0c0 }, /* TPBUFFER28 */
{ STB0899_OFF0_TP_BUFFER29 , STB0899_BASE_TP_BUFFER29 , 0x0000c1c1 }, /* TPBUFFER29 */
{ STB0899_OFF0_TP_BUFFER30 , STB0899_BASE_TP_BUFFER30 , 0x0000c1c1 }, /* TPBUFFER30 */
{ STB0899_OFF0_TP_BUFFER31 , STB0899_BASE_TP_BUFFER31 , 0x0000c0c1 }, /* TPBUFFER31 */
{ STB0899_OFF0_TP_BUFFER32 , STB0899_BASE_TP_BUFFER32 , 0x0000c0c1 }, /* TPBUFFER32 */
{ STB0899_OFF0_TP_BUFFER33 , STB0899_BASE_TP_BUFFER33 , 0x0000c1c1 }, /* TPBUFFER33 */
{ STB0899_OFF0_TP_BUFFER34 , STB0899_BASE_TP_BUFFER34 , 0x0000c1c1 }, /* TPBUFFER34 */
{ STB0899_OFF0_TP_BUFFER35 , STB0899_BASE_TP_BUFFER35 , 0x0000c0c1 }, /* TPBUFFER35 */
{ STB0899_OFF0_TP_BUFFER36 , STB0899_BASE_TP_BUFFER36 , 0x0000c1c1 }, /* TPBUFFER36 */
{ STB0899_OFF0_TP_BUFFER37 , STB0899_BASE_TP_BUFFER37 , 0x0000c0c1 }, /* TPBUFFER37 */
{ STB0899_OFF0_TP_BUFFER38 , STB0899_BASE_TP_BUFFER38 , 0x0000c1c1 }, /* TPBUFFER38 */
{ STB0899_OFF0_TP_BUFFER39 , STB0899_BASE_TP_BUFFER39 , 0x0000c0c0 }, /* TPBUFFER39 */
{ STB0899_OFF0_TP_BUFFER40 , STB0899_BASE_TP_BUFFER40 , 0x0000c1c0 }, /* TPBUFFER40 */
{ STB0899_OFF0_TP_BUFFER41 , STB0899_BASE_TP_BUFFER41 , 0x0000c1c1 }, /* TPBUFFER41 */
{ STB0899_OFF0_TP_BUFFER42 , STB0899_BASE_TP_BUFFER42 , 0x0000c0c0 }, /* TPBUFFER42 */
{ STB0899_OFF0_TP_BUFFER43 , STB0899_BASE_TP_BUFFER43 , 0x0000c1c0 }, /* TPBUFFER43 */
{ STB0899_OFF0_TP_BUFFER44 , STB0899_BASE_TP_BUFFER44 , 0x0000c0c1 }, /* TPBUFFER44 */
{ STB0899_OFF0_TP_BUFFER45 , STB0899_BASE_TP_BUFFER45 , 0x0000c1be }, /* TPBUFFER45 */
{ STB0899_OFF0_TP_BUFFER46 , STB0899_BASE_TP_BUFFER46 , 0x0000c1c9 }, /* TPBUFFER46 */
{ STB0899_OFF0_TP_BUFFER47 , STB0899_BASE_TP_BUFFER47 , 0x0000c0da }, /* TPBUFFER47 */
{ STB0899_OFF0_TP_BUFFER48 , STB0899_BASE_TP_BUFFER48 , 0x0000c0ba }, /* TPBUFFER48 */
{ STB0899_OFF0_TP_BUFFER49 , STB0899_BASE_TP_BUFFER49 , 0x0000c1c4 }, /* TPBUFFER49 */
{ STB0899_OFF0_TP_BUFFER50 , STB0899_BASE_TP_BUFFER50 , 0x0000c1bf }, /* TPBUFFER50 */
{ STB0899_OFF0_TP_BUFFER51 , STB0899_BASE_TP_BUFFER51 , 0x0000c0c1 }, /* TPBUFFER51 */
{ STB0899_OFF0_TP_BUFFER52 , STB0899_BASE_TP_BUFFER52 , 0x0000c1c0 }, /* TPBUFFER52 */
{ STB0899_OFF0_TP_BUFFER53 , STB0899_BASE_TP_BUFFER53 , 0x0000c0c1 }, /* TPBUFFER53 */
{ STB0899_OFF0_TP_BUFFER54 , STB0899_BASE_TP_BUFFER54 , 0x0000c1c1 }, /* TPBUFFER54 */
{ STB0899_OFF0_TP_BUFFER55 , STB0899_BASE_TP_BUFFER55 , 0x0000c1c1 }, /* TPBUFFER55 */
{ STB0899_OFF0_TP_BUFFER56 , STB0899_BASE_TP_BUFFER56 , 0x0000c1c1 }, /* TPBUFFER56 */
{ STB0899_OFF0_TP_BUFFER57 , STB0899_BASE_TP_BUFFER57 , 0x0000c1c1 }, /* TPBUFFER57 */
{ STB0899_OFF0_TP_BUFFER58 , STB0899_BASE_TP_BUFFER58 , 0x0000c1c1 }, /* TPBUFFER58 */
{ STB0899_OFF0_TP_BUFFER59 , STB0899_BASE_TP_BUFFER59 , 0x0000c1c1 }, /* TPBUFFER59 */
{ STB0899_OFF0_TP_BUFFER60 , STB0899_BASE_TP_BUFFER60 , 0x0000c1c1 }, /* TPBUFFER60 */
{ STB0899_OFF0_TP_BUFFER61 , STB0899_BASE_TP_BUFFER61 , 0x0000c1c1 }, /* TPBUFFER61 */
{ STB0899_OFF0_TP_BUFFER62 , STB0899_BASE_TP_BUFFER62 , 0x0000c1c1 }, /* TPBUFFER62 */
{ STB0899_OFF0_TP_BUFFER63 , STB0899_BASE_TP_BUFFER63 , 0x0000c1c0 }, /* TPBUFFER63 */
{ STB0899_OFF0_RESET_CNTRL , STB0899_BASE_RESET_CNTRL , 0x00000001 }, /* RESETCNTRL */
{ STB0899_OFF0_ACM_ENABLE , STB0899_BASE_ACM_ENABLE , 0x00005654 }, /* ACMENABLE */
{ STB0899_OFF0_DESCR_CNTRL , STB0899_BASE_DESCR_CNTRL , 0x00000000 }, /* DESCRCNTRL */
{ STB0899_OFF0_CSM_CNTRL1 , STB0899_BASE_CSM_CNTRL1 , 0x00020019 }, /* CSMCNTRL1 */
{ STB0899_OFF0_CSM_CNTRL2 , STB0899_BASE_CSM_CNTRL2 , 0x004b3237 }, /* CSMCNTRL2 */
{ STB0899_OFF0_CSM_CNTRL3 , STB0899_BASE_CSM_CNTRL3 , 0x0003dd17 }, /* CSMCNTRL3 */
{ STB0899_OFF0_CSM_CNTRL4 , STB0899_BASE_CSM_CNTRL4 , 0x00008008 }, /* CSMCNTRL4 */
{ STB0899_OFF0_UWP_CNTRL1 , STB0899_BASE_UWP_CNTRL1 , 0x002a3106 }, /* UWPCNTRL1 */
{ STB0899_OFF0_UWP_CNTRL2 , STB0899_BASE_UWP_CNTRL2 , 0x0006140a }, /* UWPCNTRL2 */
{ STB0899_OFF0_UWP_STAT1 , STB0899_BASE_UWP_STAT1 , 0x00008000 }, /* UWPSTAT1 */
{ STB0899_OFF0_UWP_STAT2 , STB0899_BASE_UWP_STAT2 , 0x00000000 }, /* UWPSTAT2 */
{ STB0899_OFF0_DMD_STAT2 , STB0899_BASE_DMD_STAT2 , 0x00000000 }, /* DMDSTAT2 */
{ STB0899_OFF0_FREQ_ADJ_SCALE , STB0899_BASE_FREQ_ADJ_SCALE , 0x00000471 }, /* FREQADJSCALE */
{ STB0899_OFF0_UWP_CNTRL3 , STB0899_BASE_UWP_CNTRL3 , 0x017b0465 }, /* UWPCNTRL3 */
{ STB0899_OFF0_SYM_CLK_SEL , STB0899_BASE_SYM_CLK_SEL , 0x00000002 }, /* SYMCLKSEL */
{ STB0899_OFF0_SOF_SRCH_TO , STB0899_BASE_SOF_SRCH_TO , 0x00196464 }, /* SOFSRCHTO */
{ STB0899_OFF0_ACQ_CNTRL1 , STB0899_BASE_ACQ_CNTRL1 , 0x00000603 }, /* ACQCNTRL1 */
{ STB0899_OFF0_ACQ_CNTRL2 , STB0899_BASE_ACQ_CNTRL2 , 0x02046666 }, /* ACQCNTRL2 */
{ STB0899_OFF0_ACQ_CNTRL3 , STB0899_BASE_ACQ_CNTRL3 , 0x10046583 }, /* ACQCNTRL3 */
{ STB0899_OFF0_FE_SETTLE , STB0899_BASE_FE_SETTLE , 0x00010404 }, /* FESETTLE */
{ STB0899_OFF0_AC_DWELL , STB0899_BASE_AC_DWELL , 0x0002aa8a }, /* ACDWELL */
{ STB0899_OFF0_ACQUIRE_TRIG , STB0899_BASE_ACQUIRE_TRIG , 0x00000000 }, /* ACQUIRETRIG */
{ STB0899_OFF0_LOCK_LOST , STB0899_BASE_LOCK_LOST , 0x00000001 }, /* LOCKLOST */
{ STB0899_OFF0_ACQ_STAT1 , STB0899_BASE_ACQ_STAT1 , 0x00000500 }, /* ACQSTAT1 */
{ STB0899_OFF0_ACQ_TIMEOUT , STB0899_BASE_ACQ_TIMEOUT , 0x0028a0a0 }, /* ACQTIMEOUT */
{ STB0899_OFF0_ACQ_TIME , STB0899_BASE_ACQ_TIME , 0x00000000 }, /* ACQTIME */
{ STB0899_OFF0_FINAL_AGC_CNTRL , STB0899_BASE_FINAL_AGC_CNTRL , 0x00800c17 }, /* FINALAGCCNTRL*/
{ STB0899_OFF0_FINAL_AGC_GAIN , STB0899_BASE_FINAL_AGC_GAIN , 0x00000000 }, /* FINALAGCCGAIN*/
{ STB0899_OFF0_EQUALIZER_INIT , STB0899_BASE_EQUALIZER_INIT , 0x00000000 }, /* EQUILIZERINIT*/
{ STB0899_OFF0_EQ_CNTRL , STB0899_BASE_EQ_CNTRL , 0x00054802 }, /* EQCNTL */
{ STB0899_OFF0_EQ_I_INIT_COEFF_0, STB0899_BASE_EQ_I_INIT_COEFF_N, 0x00000000 }, /* EQIINITCOEFF0 */
{ STB0899_OFF1_EQ_I_INIT_COEFF_1, STB0899_BASE_EQ_I_INIT_COEFF_N, 0x00000000 }, /* EQIINITCOEFF1 */
{ STB0899_OFF2_EQ_I_INIT_COEFF_2, STB0899_BASE_EQ_I_INIT_COEFF_N, 0x00000000 }, /* EQIINITCOEFF2 */
{ STB0899_OFF3_EQ_I_INIT_COEFF_3, STB0899_BASE_EQ_I_INIT_COEFF_N, 0x00000000 }, /* EQIINITCOEFF3 */
{ STB0899_OFF4_EQ_I_INIT_COEFF_4, STB0899_BASE_EQ_I_INIT_COEFF_N, 0x00000000 }, /* EQIINITCOEFF4 */
{ STB0899_OFF5_EQ_I_INIT_COEFF_5, STB0899_BASE_EQ_I_INIT_COEFF_N, 0x00000400 }, /* EQIINITCOEFF5 */
{ STB0899_OFF6_EQ_I_INIT_COEFF_6, STB0899_BASE_EQ_I_INIT_COEFF_N, 0x00000000 }, /* EQIINITCOEFF6 */
{ STB0899_OFF7_EQ_I_INIT_COEFF_7, STB0899_BASE_EQ_I_INIT_COEFF_N, 0x00000000 }, /* EQIINITCOEFF7 */
{ STB0899_OFF8_EQ_I_INIT_COEFF_8, STB0899_BASE_EQ_I_INIT_COEFF_N, 0x00000000 }, /* EQIINITCOEFF8 */
{ STB0899_OFF9_EQ_I_INIT_COEFF_9, STB0899_BASE_EQ_I_INIT_COEFF_N, 0x00000000 }, /* EQIINITCOEFF9 */
{ STB0899_OFFa_EQ_I_INIT_COEFF_10,STB0899_BASE_EQ_I_INIT_COEFF_N, 0x00000000 }, /* EQIINITCOEFF10*/
{ STB0899_OFF0_EQ_Q_INIT_COEFF_0, STB0899_BASE_EQ_Q_INIT_COEFF_N, 0x00000000 }, /* EQQINITCOEFF0 */
{ STB0899_OFF1_EQ_Q_INIT_COEFF_1, STB0899_BASE_EQ_Q_INIT_COEFF_N, 0x00000000 }, /* EQQINITCOEFF1 */
{ STB0899_OFF2_EQ_Q_INIT_COEFF_2, STB0899_BASE_EQ_Q_INIT_COEFF_N, 0x00000000 }, /* EQQINITCOEFF2 */
{ STB0899_OFF3_EQ_Q_INIT_COEFF_3, STB0899_BASE_EQ_Q_INIT_COEFF_N, 0x00000000 }, /* EQQINITCOEFF3 */
{ STB0899_OFF4_EQ_Q_INIT_COEFF_4, STB0899_BASE_EQ_Q_INIT_COEFF_N, 0x00000000 }, /* EQQINITCOEFF4 */
{ STB0899_OFF5_EQ_Q_INIT_COEFF_5, STB0899_BASE_EQ_Q_INIT_COEFF_N, 0x00000000 }, /* EQQINITCOEFF5 */
{ STB0899_OFF6_EQ_Q_INIT_COEFF_6, STB0899_BASE_EQ_Q_INIT_COEFF_N, 0x00000000 }, /* EQQINITCOEFF6 */
{ STB0899_OFF7_EQ_Q_INIT_COEFF_7, STB0899_BASE_EQ_Q_INIT_COEFF_N, 0x00000000 }, /* EQQINITCOEFF7 */
{ STB0899_OFF8_EQ_Q_INIT_COEFF_8, STB0899_BASE_EQ_Q_INIT_COEFF_N, 0x00000000 }, /* EQQINITCOEFF8 */
{ STB0899_OFF9_EQ_Q_INIT_COEFF_9, STB0899_BASE_EQ_Q_INIT_COEFF_N, 0x00000000 }, /* EQQINITCOEFF9 */
{ STB0899_OFFa_EQ_Q_INIT_COEFF_10,STB0899_BASE_EQ_Q_INIT_COEFF_N, 0x00000000 }, /* EQQINITCOEFF10*/
{ STB0899_OFF0_EQ_I_OUT_COEFF_0 , STB0899_BASE_EQ_I_OUT_COEFF_N , 0x00000000 }, /* EQICOEFFSOUT0 */
{ STB0899_OFF1_EQ_I_OUT_COEFF_1 , STB0899_BASE_EQ_I_OUT_COEFF_N , 0x00000000 }, /* EQICOEFFSOUT1 */
{ STB0899_OFF2_EQ_I_OUT_COEFF_2 , STB0899_BASE_EQ_I_OUT_COEFF_N , 0x00000000 }, /* EQICOEFFSOUT2 */
{ STB0899_OFF3_EQ_I_OUT_COEFF_3 , STB0899_BASE_EQ_I_OUT_COEFF_N , 0x00000000 }, /* EQICOEFFSOUT3 */
{ STB0899_OFF4_EQ_I_OUT_COEFF_4 , STB0899_BASE_EQ_I_OUT_COEFF_N , 0x00000000 }, /* EQICOEFFSOUT4 */
{ STB0899_OFF5_EQ_I_OUT_COEFF_5 , STB0899_BASE_EQ_I_OUT_COEFF_N , 0x00000000 }, /* EQICOEFFSOUT5 */
{ STB0899_OFF6_EQ_I_OUT_COEFF_6 , STB0899_BASE_EQ_I_OUT_COEFF_N , 0x00000000 }, /* EQICOEFFSOUT6 */
{ STB0899_OFF7_EQ_I_OUT_COEFF_7 , STB0899_BASE_EQ_I_OUT_COEFF_N , 0x00000000 }, /* EQICOEFFSOUT7 */
{ STB0899_OFF8_EQ_I_OUT_COEFF_8 , STB0899_BASE_EQ_I_OUT_COEFF_N , 0x00000000 }, /* EQICOEFFSOUT8 */
{ STB0899_OFF9_EQ_I_OUT_COEFF_9 , STB0899_BASE_EQ_I_OUT_COEFF_N , 0x00000000 }, /* EQICOEFFSOUT9 */
{ STB0899_OFFa_EQ_I_OUT_COEFF_10,STB0899_BASE_EQ_I_OUT_COEFF_N , 0x00000000 }, /* EQICOEFFSOUT10*/
{ STB0899_OFF0_EQ_Q_OUT_COEFF_0 , STB0899_BASE_EQ_Q_OUT_COEFF_N , 0x00000000 }, /* EQQCOEFFSOUT0 */
{ STB0899_OFF1_EQ_Q_OUT_COEFF_1 , STB0899_BASE_EQ_Q_OUT_COEFF_N , 0x00000000 }, /* EQQCOEFFSOUT1 */
{ STB0899_OFF2_EQ_Q_OUT_COEFF_2 , STB0899_BASE_EQ_Q_OUT_COEFF_N , 0x00000000 }, /* EQQCOEFFSOUT2 */
{ STB0899_OFF3_EQ_Q_OUT_COEFF_3 , STB0899_BASE_EQ_Q_OUT_COEFF_N , 0x00000000 }, /* EQQCOEFFSOUT3 */
{ STB0899_OFF4_EQ_Q_OUT_COEFF_4 , STB0899_BASE_EQ_Q_OUT_COEFF_N , 0x00000000 }, /* EQQCOEFFSOUT4 */
{ STB0899_OFF5_EQ_Q_OUT_COEFF_5 , STB0899_BASE_EQ_Q_OUT_COEFF_N , 0x00000000 }, /* EQQCOEFFSOUT5 */
{ STB0899_OFF6_EQ_Q_OUT_COEFF_6 , STB0899_BASE_EQ_Q_OUT_COEFF_N , 0x00000000 }, /* EQQCOEFFSOUT6 */
{ STB0899_OFF7_EQ_Q_OUT_COEFF_7 , STB0899_BASE_EQ_Q_OUT_COEFF_N , 0x00000000 }, /* EQQCOEFFSOUT7 */
{ STB0899_OFF8_EQ_Q_OUT_COEFF_8 , STB0899_BASE_EQ_Q_OUT_COEFF_N , 0x00000000 }, /* EQQCOEFFSOUT8 */
{ STB0899_OFF9_EQ_Q_OUT_COEFF_9 , STB0899_BASE_EQ_Q_OUT_COEFF_N , 0x00000000 }, /* EQQCOEFFSOUT9 */
{ STB0899_OFFa_EQ_Q_OUT_COEFF_10, STB0899_BASE_EQ_Q_OUT_COEFF_N , 0x00000000 }, /* EQQCOEFFSOUT10*/
{ 0xffff , 0xffffffff , 0xffffffff },
};
static const struct stb0899_s1_reg tt3200_stb0899_s1_init_3[] = {
{ STB0899_DEMOD , 0x00 },
{ STB0899_RCOMPC , 0xc9 },
{ STB0899_AGC1CN , 0x41 },
{ STB0899_AGC1REF , 0x10 },
{ STB0899_RTC , 0x7a },
{ STB0899_TMGCFG , 0x4e },
{ STB0899_AGC2REF , 0x34 },
{ STB0899_TLSR , 0x84 },
{ STB0899_CFD , 0xc7 },
{ STB0899_ACLC , 0x87 },
{ STB0899_BCLC , 0x94 },
{ STB0899_EQON , 0x41 },
{ STB0899_LDT , 0xdd },
{ STB0899_LDT2 , 0xc9 },
{ STB0899_EQUALREF , 0xb4 },
{ STB0899_TMGRAMP , 0x10 },
{ STB0899_TMGTHD , 0x30 },
{ STB0899_IDCCOMP , 0xfb },
{ STB0899_QDCCOMP , 0x03 },
{ STB0899_POWERI , 0x3b },
{ STB0899_POWERQ , 0x3d },
{ STB0899_RCOMP , 0x81 },
{ STB0899_AGCIQIN , 0x80 },
{ STB0899_AGC2I1 , 0x04 },
{ STB0899_AGC2I2 , 0xf5 },
{ STB0899_TLIR , 0x25 },
{ STB0899_RTF , 0x80 },
{ STB0899_DSTATUS , 0x00 },
{ STB0899_LDI , 0xca },
{ STB0899_CFRM , 0xf1 },
{ STB0899_CFRL , 0xf3 },
{ STB0899_NIRM , 0x2a },
{ STB0899_NIRL , 0x05 },
{ STB0899_ISYMB , 0x17 },
{ STB0899_QSYMB , 0xfa },
{ STB0899_SFRH , 0x2f },
{ STB0899_SFRM , 0x68 },
{ STB0899_SFRL , 0x40 },
{ STB0899_SFRUPH , 0x2f },
{ STB0899_SFRUPM , 0x68 },
{ STB0899_SFRUPL , 0x40 },
{ STB0899_EQUAI1 , 0xfd },
{ STB0899_EQUAQ1 , 0x04 },
{ STB0899_EQUAI2 , 0x0f },
{ STB0899_EQUAQ2 , 0xff },
{ STB0899_EQUAI3 , 0xdf },
{ STB0899_EQUAQ3 , 0xfa },
{ STB0899_EQUAI4 , 0x37 },
{ STB0899_EQUAQ4 , 0x0d },
{ STB0899_EQUAI5 , 0xbd },
{ STB0899_EQUAQ5 , 0xf7 },
{ STB0899_DSTATUS2 , 0x00 },
{ STB0899_VSTATUS , 0x00 },
{ STB0899_VERROR , 0xff },
{ STB0899_IQSWAP , 0x2a },
{ STB0899_ECNT1M , 0x00 },
{ STB0899_ECNT1L , 0x00 },
{ STB0899_ECNT2M , 0x00 },
{ STB0899_ECNT2L , 0x00 },
{ STB0899_ECNT3M , 0x00 },
{ STB0899_ECNT3L , 0x00 },
{ STB0899_FECAUTO1 , 0x06 },
{ STB0899_FECM , 0x01 },
{ STB0899_VTH12 , 0xf0 },
{ STB0899_VTH23 , 0xa0 },
{ STB0899_VTH34 , 0x78 },
{ STB0899_VTH56 , 0x4e },
{ STB0899_VTH67 , 0x48 },
{ STB0899_VTH78 , 0x38 },
{ STB0899_PRVIT , 0xff },
{ STB0899_VITSYNC , 0x19 },
{ STB0899_RSULC , 0xb1 }, /* DVB = 0xb1, DSS = 0xa1 */
{ STB0899_TSULC , 0x42 },
{ STB0899_RSLLC , 0x40 },
{ STB0899_TSLPL , 0x12 },
{ STB0899_TSCFGH , 0x0c },
{ STB0899_TSCFGM , 0x00 },
{ STB0899_TSCFGL , 0x0c },
{ STB0899_TSOUT , 0x0d }, /* 0x0d for CAM */
{ STB0899_RSSYNCDEL , 0x00 },
{ STB0899_TSINHDELH , 0x02 },
{ STB0899_TSINHDELM , 0x00 },
{ STB0899_TSINHDELL , 0x00 },
{ STB0899_TSLLSTKM , 0x00 },
{ STB0899_TSLLSTKL , 0x00 },
{ STB0899_TSULSTKM , 0x00 },
{ STB0899_TSULSTKL , 0xab },
{ STB0899_PCKLENUL , 0x00 },
{ STB0899_PCKLENLL , 0xcc },
{ STB0899_RSPCKLEN , 0xcc },
{ STB0899_TSSTATUS , 0x80 },
{ STB0899_ERRCTRL1 , 0xb6 },
{ STB0899_ERRCTRL2 , 0x96 },
{ STB0899_ERRCTRL3 , 0x89 },
{ STB0899_DMONMSK1 , 0x27 },
{ STB0899_DMONMSK0 , 0x03 },
{ STB0899_DEMAPVIT , 0x5c },
{ STB0899_PLPARM , 0x1f },
{ STB0899_PDELCTRL , 0x48 },
{ STB0899_PDELCTRL2 , 0x00 },
{ STB0899_BBHCTRL1 , 0x00 },
{ STB0899_BBHCTRL2 , 0x00 },
{ STB0899_HYSTTHRESH , 0x77 },
{ STB0899_MATCSTM , 0x00 },
{ STB0899_MATCSTL , 0x00 },
{ STB0899_UPLCSTM , 0x00 },
{ STB0899_UPLCSTL , 0x00 },
{ STB0899_DFLCSTM , 0x00 },
{ STB0899_DFLCSTL , 0x00 },
{ STB0899_SYNCCST , 0x00 },
{ STB0899_SYNCDCSTM , 0x00 },
{ STB0899_SYNCDCSTL , 0x00 },
{ STB0899_ISI_ENTRY , 0x00 },
{ STB0899_ISI_BIT_EN , 0x00 },
{ STB0899_MATSTRM , 0x00 },
{ STB0899_MATSTRL , 0x00 },
{ STB0899_UPLSTRM , 0x00 },
{ STB0899_UPLSTRL , 0x00 },
{ STB0899_DFLSTRM , 0x00 },
{ STB0899_DFLSTRL , 0x00 },
{ STB0899_SYNCSTR , 0x00 },
{ STB0899_SYNCDSTRM , 0x00 },
{ STB0899_SYNCDSTRL , 0x00 },
{ STB0899_CFGPDELSTATUS1 , 0x10 },
{ STB0899_CFGPDELSTATUS2 , 0x00 },
{ STB0899_BBFERRORM , 0x00 },
{ STB0899_BBFERRORL , 0x00 },
{ STB0899_UPKTERRORM , 0x00 },
{ STB0899_UPKTERRORL , 0x00 },
{ 0xffff , 0xff },
};
static const struct stb0899_s2_reg tt3200_stb0899_s2_init_4[] = {
{ STB0899_OFF0_BLOCK_LNGTH , STB0899_BASE_BLOCK_LNGTH , 0x00000008 }, /* BLOCKLNGTH */
{ STB0899_OFF0_ROW_STR , STB0899_BASE_ROW_STR , 0x000000b4 }, /* ROWSTR */
{ STB0899_OFF0_BN_END_ADDR , STB0899_BASE_BN_END_ADDR , 0x000004b5 }, /* BNANDADDR */
{ STB0899_OFF0_CN_END_ADDR , STB0899_BASE_CN_END_ADDR , 0x00000b4b }, /* CNANDADDR */
{ STB0899_OFF0_INFO_LENGTH , STB0899_BASE_INFO_LENGTH , 0x00000078 }, /* INFOLENGTH */
{ STB0899_OFF0_BOT_ADDR , STB0899_BASE_BOT_ADDR , 0x000001e0 }, /* BOT_ADDR */
{ STB0899_OFF0_BCH_BLK_LN , STB0899_BASE_BCH_BLK_LN , 0x0000a8c0 }, /* BCHBLKLN */
{ STB0899_OFF0_BCH_T , STB0899_BASE_BCH_T , 0x0000000c }, /* BCHT */
{ STB0899_OFF0_CNFG_MODE , STB0899_BASE_CNFG_MODE , 0x00000001 }, /* CNFGMODE */
{ STB0899_OFF0_LDPC_STAT , STB0899_BASE_LDPC_STAT , 0x0000000d }, /* LDPCSTAT */
{ STB0899_OFF0_ITER_SCALE , STB0899_BASE_ITER_SCALE , 0x00000040 }, /* ITERSCALE */
{ STB0899_OFF0_INPUT_MODE , STB0899_BASE_INPUT_MODE , 0x00000000 }, /* INPUTMODE */
{ STB0899_OFF0_LDPCDECRST , STB0899_BASE_LDPCDECRST , 0x00000000 }, /* LDPCDECRST */
{ STB0899_OFF0_CLK_PER_BYTE_RW , STB0899_BASE_CLK_PER_BYTE_RW , 0x00000008 }, /* CLKPERBYTE */
{ STB0899_OFF0_BCH_ERRORS , STB0899_BASE_BCH_ERRORS , 0x00000000 }, /* BCHERRORS */
{ STB0899_OFF0_LDPC_ERRORS , STB0899_BASE_LDPC_ERRORS , 0x00000000 }, /* LDPCERRORS */
{ STB0899_OFF0_BCH_MODE , STB0899_BASE_BCH_MODE , 0x00000000 }, /* BCHMODE */
{ STB0899_OFF0_ERR_ACC_PER , STB0899_BASE_ERR_ACC_PER , 0x00000008 }, /* ERRACCPER */
{ STB0899_OFF0_BCH_ERR_ACC , STB0899_BASE_BCH_ERR_ACC , 0x00000000 }, /* BCHERRACC */
{ STB0899_OFF0_FEC_TP_SEL , STB0899_BASE_FEC_TP_SEL , 0x00000000 }, /* FECTPSEL */
{ 0xffff , 0xffffffff , 0xffffffff },
};
static const struct stb0899_s1_reg tt3200_stb0899_s1_init_5[] = {
{ STB0899_TSTCK , 0x00 },
{ STB0899_TSTRES , 0x00 },
{ STB0899_TSTOUT , 0x00 },
{ STB0899_TSTIN , 0x00 },
{ STB0899_TSTSYS , 0x00 },
{ STB0899_TSTCHIP , 0x00 },
{ STB0899_TSTFREE , 0x00 },
{ STB0899_TSTI2C , 0x00 },
{ STB0899_BITSPEEDM , 0x00 },
{ STB0899_BITSPEEDL , 0x00 },
{ STB0899_TBUSBIT , 0x00 },
{ STB0899_TSTDIS , 0x00 },
{ STB0899_TSTDISRX , 0x00 },
{ STB0899_TSTJETON , 0x00 },
{ STB0899_TSTDCADJ , 0x00 },
{ STB0899_TSTAGC1 , 0x00 },
{ STB0899_TSTAGC1N , 0x00 },
{ STB0899_TSTPOLYPH , 0x00 },
{ STB0899_TSTR , 0x00 },
{ STB0899_TSTAGC2 , 0x00 },
{ STB0899_TSTCTL1 , 0x00 },
{ STB0899_TSTCTL2 , 0x00 },
{ STB0899_TSTCTL3 , 0x00 },
{ STB0899_TSTDEMAP , 0x00 },
{ STB0899_TSTDEMAP2 , 0x00 },
{ STB0899_TSTDEMMON , 0x00 },
{ STB0899_TSTRATE , 0x00 },
{ STB0899_TSTSELOUT , 0x00 },
{ STB0899_TSYNC , 0x00 },
{ STB0899_TSTERR , 0x00 },
{ STB0899_TSTRAM1 , 0x00 },
{ STB0899_TSTVSELOUT , 0x00 },
{ STB0899_TSTFORCEIN , 0x00 },
{ STB0899_TSTRS1 , 0x00 },
{ STB0899_TSTRS2 , 0x00 },
{ STB0899_TSTRS3 , 0x00 },
{ STB0899_GHOSTREG , 0x81 },
{ 0xffff , 0xff },
};
#define TT3200_DVBS2_ESNO_AVE 3
#define TT3200_DVBS2_ESNO_QUANT 32
#define TT3200_DVBS2_AVFRAMES_COARSE 10
#define TT3200_DVBS2_AVFRAMES_FINE 20
#define TT3200_DVBS2_MISS_THRESHOLD 6
#define TT3200_DVBS2_UWP_THRESHOLD_ACQ 1125
#define TT3200_DVBS2_UWP_THRESHOLD_TRACK 758
#define TT3200_DVBS2_UWP_THRESHOLD_SOF 1350
#define TT3200_DVBS2_SOF_SEARCH_TIMEOUT 1664100
#define TT3200_DVBS2_BTR_NCO_BITS 28
#define TT3200_DVBS2_BTR_GAIN_SHIFT_OFFSET 15
#define TT3200_DVBS2_CRL_NCO_BITS 30
#define TT3200_DVBS2_LDPC_MAX_ITER 70
static int stb6100_get_frequency(struct dvb_frontend *fe, u32 *frequency)
{
struct dvb_frontend_ops *frontend_ops = NULL;
struct dvb_tuner_ops *tuner_ops = NULL;
struct tuner_state t_state;
int err = 0;
if (&fe->ops)
frontend_ops = &fe->ops;
if (&frontend_ops->tuner_ops)
tuner_ops = &frontend_ops->tuner_ops;
if (tuner_ops->get_state) {
if ((err = tuner_ops->get_state(fe, DVBFE_TUNER_FREQUENCY, &t_state)) < 0) {
printk("%s: Invalid parameter\n", __func__);
return err;
}
*frequency = t_state.frequency;
printk("%s: Frequency=%d\n", __func__, t_state.frequency);
}
return 0;
}
static int stb6100_set_frequency(struct dvb_frontend *fe, u32 frequency)
{
struct dvb_frontend_ops *frontend_ops = NULL;
struct dvb_tuner_ops *tuner_ops = NULL;
struct tuner_state t_state;
int err = 0;
t_state.frequency = frequency;
if (&fe->ops)
frontend_ops = &fe->ops;
if (&frontend_ops->tuner_ops)
tuner_ops = &frontend_ops->tuner_ops;
if (tuner_ops->set_state) {
if ((err = tuner_ops->set_state(fe, DVBFE_TUNER_FREQUENCY, &t_state)) < 0) {
printk("%s: Invalid parameter\n", __func__);
return err;
}
}
printk("%s: Frequency=%d\n", __func__, t_state.frequency);
return 0;
}
static int stb6100_get_bandwidth(struct dvb_frontend *fe, u32 *bandwidth)
{
struct dvb_frontend_ops *frontend_ops = &fe->ops;
struct dvb_tuner_ops *tuner_ops = &frontend_ops->tuner_ops;
struct tuner_state t_state;
int err = 0;
if (&fe->ops)
frontend_ops = &fe->ops;
if (&frontend_ops->tuner_ops)
tuner_ops = &frontend_ops->tuner_ops;
if (tuner_ops->get_state) {
if ((err = tuner_ops->get_state(fe, DVBFE_TUNER_BANDWIDTH, &t_state)) < 0) {
printk("%s: Invalid parameter\n", __func__);
return err;
}
*bandwidth = t_state.bandwidth;
}
printk("%s: Bandwidth=%d\n", __func__, t_state.bandwidth);
return 0;
}
static int stb6100_set_bandwidth(struct dvb_frontend *fe, u32 bandwidth)
{
struct dvb_frontend_ops *frontend_ops = NULL;
struct dvb_tuner_ops *tuner_ops = NULL;
struct tuner_state t_state;
int err = 0;
t_state.bandwidth = bandwidth;
if (&fe->ops)
frontend_ops = &fe->ops;
if (&frontend_ops->tuner_ops)
tuner_ops = &frontend_ops->tuner_ops;
if (tuner_ops->set_state) {
if ((err = tuner_ops->set_state(fe, DVBFE_TUNER_BANDWIDTH, &t_state)) < 0) {
printk("%s: Invalid parameter\n", __func__);
return err;
}
}
printk("%s: Bandwidth=%d\n", __func__, t_state.bandwidth);
return 0;
}
static struct stb0899_config tt3200_config = {
.init_dev = tt3200_stb0899_s1_init_1,
.init_s2_demod = tt3200_stb0899_s2_init_2,
.init_s1_demod = tt3200_stb0899_s1_init_3,
.init_s2_fec = tt3200_stb0899_s2_init_4,
.init_tst = tt3200_stb0899_s1_init_5,
.demod_address = 0x68,
.xtal_freq = 27000000,
.inversion = IQ_SWAP_ON, /* 1 */
.esno_ave = TT3200_DVBS2_ESNO_AVE,
.esno_quant = TT3200_DVBS2_ESNO_QUANT,
.avframes_coarse = TT3200_DVBS2_AVFRAMES_COARSE,
.avframes_fine = TT3200_DVBS2_AVFRAMES_FINE,
.miss_threshold = TT3200_DVBS2_MISS_THRESHOLD,
.uwp_threshold_acq = TT3200_DVBS2_UWP_THRESHOLD_ACQ,
.uwp_threshold_track = TT3200_DVBS2_UWP_THRESHOLD_TRACK,
.uwp_threshold_sof = TT3200_DVBS2_UWP_THRESHOLD_SOF,
.sof_search_timeout = TT3200_DVBS2_SOF_SEARCH_TIMEOUT,
.btr_nco_bits = TT3200_DVBS2_BTR_NCO_BITS,
.btr_gain_shift_offset = TT3200_DVBS2_BTR_GAIN_SHIFT_OFFSET,
.crl_nco_bits = TT3200_DVBS2_CRL_NCO_BITS,
.ldpc_max_iter = TT3200_DVBS2_LDPC_MAX_ITER,
.tuner_get_frequency = stb6100_get_frequency,
.tuner_set_frequency = stb6100_set_frequency,
.tuner_set_bandwidth = stb6100_set_bandwidth,
.tuner_get_bandwidth = stb6100_get_bandwidth,
.tuner_set_rfsiggain = NULL,
};
struct stb6100_config tt3200_stb6100_config = {
.tuner_address = 0x60,
.refclock = 27000000,
};
static void frontend_init(struct budget_ci *budget_ci)
{
switch (budget_ci->budget.dev->pci->subsystem_device) {
case 0x100c: // Hauppauge/TT Nova-CI budget (stv0299/ALPS BSRU6(tsa5059))
budget_ci->budget.dvb_frontend =
dvb_attach(stv0299_attach, &alps_bsru6_config, &budget_ci->budget.i2c_adap);
if (budget_ci->budget.dvb_frontend) {
budget_ci->budget.dvb_frontend->ops.tuner_ops.set_params = alps_bsru6_tuner_set_params;
budget_ci->budget.dvb_frontend->tuner_priv = &budget_ci->budget.i2c_adap;
break;
}
break;
case 0x100f: // Hauppauge/TT Nova-CI budget (stv0299b/Philips su1278(tsa5059))
budget_ci->budget.dvb_frontend =
dvb_attach(stv0299_attach, &philips_su1278_tt_config, &budget_ci->budget.i2c_adap);
if (budget_ci->budget.dvb_frontend) {
budget_ci->budget.dvb_frontend->ops.tuner_ops.set_params = philips_su1278_tt_tuner_set_params;
break;
}
break;
case 0x1010: // TT DVB-C CI budget (stv0297/Philips tdm1316l(tda6651tt))
budget_ci->tuner_pll_address = 0x61;
budget_ci->budget.dvb_frontend =
dvb_attach(stv0297_attach, &dvbc_philips_tdm1316l_config, &budget_ci->budget.i2c_adap);
if (budget_ci->budget.dvb_frontend) {
budget_ci->budget.dvb_frontend->ops.tuner_ops.set_params = dvbc_philips_tdm1316l_tuner_set_params;
break;
}
break;
case 0x1011: // Hauppauge/TT Nova-T budget (tda10045/Philips tdm1316l(tda6651tt) + TDA9889)
budget_ci->tuner_pll_address = 0x63;
budget_ci->budget.dvb_frontend =
dvb_attach(tda10045_attach, &philips_tdm1316l_config, &budget_ci->budget.i2c_adap);
if (budget_ci->budget.dvb_frontend) {
budget_ci->budget.dvb_frontend->ops.tuner_ops.init = philips_tdm1316l_tuner_init;
budget_ci->budget.dvb_frontend->ops.tuner_ops.set_params = philips_tdm1316l_tuner_set_params;
break;
}
break;
case 0x1012: // TT DVB-T CI budget (tda10046/Philips tdm1316l(tda6651tt))
budget_ci->tuner_pll_address = 0x60;
budget_ci->budget.dvb_frontend =
dvb_attach(tda10046_attach, &philips_tdm1316l_config_invert, &budget_ci->budget.i2c_adap);
if (budget_ci->budget.dvb_frontend) {
budget_ci->budget.dvb_frontend->ops.tuner_ops.init = philips_tdm1316l_tuner_init;
budget_ci->budget.dvb_frontend->ops.tuner_ops.set_params = philips_tdm1316l_tuner_set_params;
break;
}
break;
case 0x1017: // TT S-1500 PCI
budget_ci->budget.dvb_frontend = dvb_attach(stv0299_attach, &alps_bsbe1_config, &budget_ci->budget.i2c_adap);
if (budget_ci->budget.dvb_frontend) {
budget_ci->budget.dvb_frontend->ops.tuner_ops.set_params = alps_bsbe1_tuner_set_params;
budget_ci->budget.dvb_frontend->tuner_priv = &budget_ci->budget.i2c_adap;
budget_ci->budget.dvb_frontend->ops.dishnetwork_send_legacy_command = NULL;
if (dvb_attach(lnbp21_attach, budget_ci->budget.dvb_frontend, &budget_ci->budget.i2c_adap, LNBP21_LLC, 0) == NULL) {
printk("%s: No LNBP21 found!\n", __func__);
dvb_frontend_detach(budget_ci->budget.dvb_frontend);
budget_ci->budget.dvb_frontend = NULL;
}
}
break;
case 0x101a: /* TT Budget-C-1501 (philips tda10023/philips tda8274A) */
budget_ci->budget.dvb_frontend = dvb_attach(tda10023_attach, &tda10023_config, &budget_ci->budget.i2c_adap, 0x48);
if (budget_ci->budget.dvb_frontend) {
if (dvb_attach(tda827x_attach, budget_ci->budget.dvb_frontend, 0x61, &budget_ci->budget.i2c_adap, NULL) == NULL) {
printk(KERN_ERR "%s: No tda827x found!\n", __func__);
dvb_frontend_detach(budget_ci->budget.dvb_frontend);
budget_ci->budget.dvb_frontend = NULL;
}
}
break;
case 0x1019: // TT S2-3200 PCI
/*
* NOTE! on some STB0899 versions, the internal PLL takes a longer time
* to settle, aka LOCK. On the older revisions of the chip, we don't see
* this, as a result on the newer chips the entire clock tree, will not
* be stable after a freshly POWER 'ed up situation.
* In this case, we should RESET the STB0899 (Active LOW) and wait for
* PLL stabilization.
*
* On the TT S2 3200 and clones, the STB0899 demodulator's RESETB is
* connected to the SAA7146 GPIO, GPIO2, Pin 142
*/
/* Reset Demodulator */
saa7146_setgpio(budget_ci->budget.dev, 2, SAA7146_GPIO_OUTLO);
/* Wait for everything to die */
msleep(50);
/* Pull it up out of Reset state */
saa7146_setgpio(budget_ci->budget.dev, 2, SAA7146_GPIO_OUTHI);
/* Wait for PLL to stabilize */
msleep(250);
/*
* PLL state should be stable now. Ideally, we should check
* for PLL LOCK status. But well, never mind!
*/
budget_ci->budget.dvb_frontend = dvb_attach(stb0899_attach, &tt3200_config, &budget_ci->budget.i2c_adap);
if (budget_ci->budget.dvb_frontend) {
if (dvb_attach(stb6100_attach, budget_ci->budget.dvb_frontend, &tt3200_stb6100_config, &budget_ci->budget.i2c_adap)) {
if (!dvb_attach(lnbp21_attach, budget_ci->budget.dvb_frontend, &budget_ci->budget.i2c_adap, 0, 0)) {
printk("%s: No LNBP21 found!\n", __FUNCTION__);
dvb_frontend_detach(budget_ci->budget.dvb_frontend);
budget_ci->budget.dvb_frontend = NULL;
}
} else {
dvb_frontend_detach(budget_ci->budget.dvb_frontend);
budget_ci->budget.dvb_frontend = NULL;
}
}
break;
}
if (budget_ci->budget.dvb_frontend == NULL) {
printk("budget-ci: A frontend driver was not found for device [%04x:%04x] subsystem [%04x:%04x]\n",
budget_ci->budget.dev->pci->vendor,
budget_ci->budget.dev->pci->device,
budget_ci->budget.dev->pci->subsystem_vendor,
budget_ci->budget.dev->pci->subsystem_device);
} else {
if (dvb_register_frontend
(&budget_ci->budget.dvb_adapter, budget_ci->budget.dvb_frontend)) {
printk("budget-ci: Frontend registration failed!\n");
dvb_frontend_detach(budget_ci->budget.dvb_frontend);
budget_ci->budget.dvb_frontend = NULL;
}
}
}
static int budget_ci_attach(struct saa7146_dev *dev, struct saa7146_pci_extension_data *info)
{
struct budget_ci *budget_ci;
int err;
budget_ci = kzalloc(sizeof(struct budget_ci), GFP_KERNEL);
if (!budget_ci) {
err = -ENOMEM;
goto out1;
}
dprintk(2, "budget_ci: %p\n", budget_ci);
dev->ext_priv = budget_ci;
err = ttpci_budget_init(&budget_ci->budget, dev, info, THIS_MODULE,
adapter_nr);
if (err)
goto out2;
err = msp430_ir_init(budget_ci);
if (err)
goto out3;
ciintf_init(budget_ci);
budget_ci->budget.dvb_adapter.priv = budget_ci;
frontend_init(budget_ci);
ttpci_budget_init_hooks(&budget_ci->budget);
return 0;
out3:
ttpci_budget_deinit(&budget_ci->budget);
out2:
kfree(budget_ci);
out1:
return err;
}
static int budget_ci_detach(struct saa7146_dev *dev)
{
struct budget_ci *budget_ci = (struct budget_ci *) dev->ext_priv;
struct saa7146_dev *saa = budget_ci->budget.dev;
int err;
if (budget_ci->budget.ci_present)
ciintf_deinit(budget_ci);
msp430_ir_deinit(budget_ci);
if (budget_ci->budget.dvb_frontend) {
dvb_unregister_frontend(budget_ci->budget.dvb_frontend);
dvb_frontend_detach(budget_ci->budget.dvb_frontend);
}
err = ttpci_budget_deinit(&budget_ci->budget);
// disable frontend and CI interface
saa7146_setgpio(saa, 2, SAA7146_GPIO_INPUT);
kfree(budget_ci);
return err;
}
static struct saa7146_extension budget_extension;
MAKE_BUDGET_INFO(ttbs2, "TT-Budget/S-1500 PCI", BUDGET_TT);
MAKE_BUDGET_INFO(ttbci, "TT-Budget/WinTV-NOVA-CI PCI", BUDGET_TT_HW_DISEQC);
MAKE_BUDGET_INFO(ttbt2, "TT-Budget/WinTV-NOVA-T PCI", BUDGET_TT);
MAKE_BUDGET_INFO(ttbtci, "TT-Budget-T-CI PCI", BUDGET_TT);
MAKE_BUDGET_INFO(ttbcci, "TT-Budget-C-CI PCI", BUDGET_TT);
MAKE_BUDGET_INFO(ttc1501, "TT-Budget C-1501 PCI", BUDGET_TT);
MAKE_BUDGET_INFO(tt3200, "TT-Budget S2-3200 PCI", BUDGET_TT);
static struct pci_device_id pci_tbl[] = {
MAKE_EXTENSION_PCI(ttbci, 0x13c2, 0x100c),
MAKE_EXTENSION_PCI(ttbci, 0x13c2, 0x100f),
MAKE_EXTENSION_PCI(ttbcci, 0x13c2, 0x1010),
MAKE_EXTENSION_PCI(ttbt2, 0x13c2, 0x1011),
MAKE_EXTENSION_PCI(ttbtci, 0x13c2, 0x1012),
MAKE_EXTENSION_PCI(ttbs2, 0x13c2, 0x1017),
MAKE_EXTENSION_PCI(ttc1501, 0x13c2, 0x101a),
MAKE_EXTENSION_PCI(tt3200, 0x13c2, 0x1019),
{
.vendor = 0,
}
};
MODULE_DEVICE_TABLE(pci, pci_tbl);
static struct saa7146_extension budget_extension = {
.name = "budget_ci dvb",
.flags = SAA7146_USE_I2C_IRQ,
.module = THIS_MODULE,
.pci_tbl = &pci_tbl[0],
.attach = budget_ci_attach,
.detach = budget_ci_detach,
.irq_mask = MASK_03 | MASK_06 | MASK_10,
.irq_func = budget_ci_irq,
};
static int __init budget_ci_init(void)
{
return saa7146_register_extension(&budget_extension);
}
static void __exit budget_ci_exit(void)
{
saa7146_unregister_extension(&budget_extension);
}
module_init(budget_ci_init);
module_exit(budget_ci_exit);
MODULE_LICENSE("GPL");
MODULE_AUTHOR("Michael Hunold, Jack Thomasson, Andrew de Quincey, others");
MODULE_DESCRIPTION("driver for the SAA7146 based so-called "
"budget PCI DVB cards w/ CI-module produced by "
"Siemens, Technotrend, Hauppauge");
|