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path: root/drivers/media/dvb/firewire/firedtv-avc.c
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/*
 * FireDTV driver (formerly known as FireSAT)
 *
 * Copyright (C) 2004 Andreas Monitzer <andy@monitzer.com>
 * Copyright (C) 2008 Ben Backx <ben@bbackx.com>
 * Copyright (C) 2008 Henrik Kurelid <henrik@kurelid.se>
 *
 *	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.
 */

#include <linux/bug.h>
#include <linux/crc32.h>
#include <linux/delay.h>
#include <linux/device.h>
#include <linux/jiffies.h>
#include <linux/kernel.h>
#include <linux/moduleparam.h>
#include <linux/mutex.h>
#include <linux/string.h>
#include <linux/stringify.h>
#include <linux/wait.h>
#include <linux/workqueue.h>

#include "firedtv.h"

#define FCP_COMMAND_REGISTER		0xfffff0000b00ULL

#define AVC_CTYPE_CONTROL		0x0
#define AVC_CTYPE_STATUS		0x1
#define AVC_CTYPE_NOTIFY		0x3

#define AVC_RESPONSE_ACCEPTED		0x9
#define AVC_RESPONSE_STABLE		0xc
#define AVC_RESPONSE_CHANGED		0xd
#define AVC_RESPONSE_INTERIM		0xf

#define AVC_SUBUNIT_TYPE_TUNER		(0x05 << 3)
#define AVC_SUBUNIT_TYPE_UNIT		(0x1f << 3)

#define AVC_OPCODE_VENDOR		0x00
#define AVC_OPCODE_READ_DESCRIPTOR	0x09
#define AVC_OPCODE_DSIT			0xc8
#define AVC_OPCODE_DSD			0xcb

#define DESCRIPTOR_TUNER_STATUS 	0x80
#define DESCRIPTOR_SUBUNIT_IDENTIFIER	0x00

#define SFE_VENDOR_DE_COMPANYID_0	0x00 /* OUI of Digital Everywhere */
#define SFE_VENDOR_DE_COMPANYID_1	0x12
#define SFE_VENDOR_DE_COMPANYID_2	0x87

#define SFE_VENDOR_OPCODE_REGISTER_REMOTE_CONTROL 0x0a
#define SFE_VENDOR_OPCODE_LNB_CONTROL		0x52
#define SFE_VENDOR_OPCODE_TUNE_QPSK		0x58 /* for DVB-S */

#define SFE_VENDOR_OPCODE_GET_FIRMWARE_VERSION	0x00
#define SFE_VENDOR_OPCODE_HOST2CA		0x56
#define SFE_VENDOR_OPCODE_CA2HOST		0x57
#define SFE_VENDOR_OPCODE_CISTATUS		0x59
#define SFE_VENDOR_OPCODE_TUNE_QPSK2		0x60 /* for DVB-S2 */

#define SFE_VENDOR_TAG_CA_RESET			0x00
#define SFE_VENDOR_TAG_CA_APPLICATION_INFO	0x01
#define SFE_VENDOR_TAG_CA_PMT			0x02
#define SFE_VENDOR_TAG_CA_DATE_TIME		0x04
#define SFE_VENDOR_TAG_CA_MMI			0x05
#define SFE_VENDOR_TAG_CA_ENTER_MENU		0x07

#define EN50221_LIST_MANAGEMENT_ONLY	0x03
#define EN50221_TAG_APP_INFO		0x9f8021
#define EN50221_TAG_CA_INFO		0x9f8031

struct avc_command_frame {
	u8 ctype;
	u8 subunit;
	u8 opcode;
	u8 operand[509];
};

struct avc_response_frame {
	u8 response;
	u8 subunit;
	u8 opcode;
	u8 operand[509];
};

#define LAST_OPERAND (509 - 1)

static inline void clear_operands(struct avc_command_frame *c, int from, int to)
{
	memset(&c->operand[from], 0, to - from + 1);
}

static void pad_operands(struct avc_command_frame *c, int from)
{
	int to = ALIGN(from, 4);

	if (from <= to && to <= LAST_OPERAND)
		clear_operands(c, from, to);
}

#define AVC_DEBUG_READ_DESCRIPTOR              0x0001
#define AVC_DEBUG_DSIT                         0x0002
#define AVC_DEBUG_DSD                          0x0004
#define AVC_DEBUG_REGISTER_REMOTE_CONTROL      0x0008
#define AVC_DEBUG_LNB_CONTROL                  0x0010
#define AVC_DEBUG_TUNE_QPSK                    0x0020
#define AVC_DEBUG_TUNE_QPSK2                   0x0040
#define AVC_DEBUG_HOST2CA                      0x0080
#define AVC_DEBUG_CA2HOST                      0x0100
#define AVC_DEBUG_APPLICATION_PMT              0x4000
#define AVC_DEBUG_FCP_PAYLOADS                 0x8000

static int avc_debug;
module_param_named(debug, avc_debug, int, 0644);
MODULE_PARM_DESC(debug, "Verbose logging (none = 0"
	", FCP subactions"
	": READ DESCRIPTOR = "		__stringify(AVC_DEBUG_READ_DESCRIPTOR)
	", DSIT = "			__stringify(AVC_DEBUG_DSIT)
	", REGISTER_REMOTE_CONTROL = "	__stringify(AVC_DEBUG_REGISTER_REMOTE_CONTROL)
	", LNB CONTROL = "		__stringify(AVC_DEBUG_LNB_CONTROL)
	", TUNE QPSK = "		__stringify(AVC_DEBUG_TUNE_QPSK)
	", TUNE QPSK2 = "		__stringify(AVC_DEBUG_TUNE_QPSK2)
	", HOST2CA = "			__stringify(AVC_DEBUG_HOST2CA)
	", CA2HOST = "			__stringify(AVC_DEBUG_CA2HOST)
	"; Application sent PMT = "	__stringify(AVC_DEBUG_APPLICATION_PMT)
	", FCP payloads = "		__stringify(AVC_DEBUG_FCP_PAYLOADS)
	", or a combination, or all = -1)");

static const char *debug_fcp_ctype(unsigned int ctype)
{
	static const char *ctypes[] = {
		[0x0] = "CONTROL",		[0x1] = "STATUS",
		[0x2] = "SPECIFIC INQUIRY",	[0x3] = "NOTIFY",
		[0x4] = "GENERAL INQUIRY",	[0x8] = "NOT IMPLEMENTED",
		[0x9] = "ACCEPTED",		[0xa] = "REJECTED",
		[0xb] = "IN TRANSITION",	[0xc] = "IMPLEMENTED/STABLE",
		[0xd] = "CHANGED",		[0xf] = "INTERIM",
	};
	const char *ret = ctype < ARRAY_SIZE(ctypes) ? ctypes[ctype] : NULL;

	return ret ? ret : "?";
}

static const char *debug_fcp_opcode(unsigned int opcode,
				    const u8 *data, int length)
{
	switch (opcode) {
	case AVC_OPCODE_VENDOR:
		break;
	case AVC_OPCODE_READ_DESCRIPTOR:
		return avc_debug & AVC_DEBUG_READ_DESCRIPTOR ?
				"ReadDescriptor" : NULL;
	case AVC_OPCODE_DSIT:
		return avc_debug & AVC_DEBUG_DSIT ?
				"DirectSelectInfo.Type" : NULL;
	case AVC_OPCODE_DSD:
		return avc_debug & AVC_DEBUG_DSD ? "DirectSelectData" : NULL;
	default:
		return "Unknown";
	}

	if (length < 7 ||
	    data[3] != SFE_VENDOR_DE_COMPANYID_0 ||
	    data[4] != SFE_VENDOR_DE_COMPANYID_1 ||
	    data[5] != SFE_VENDOR_DE_COMPANYID_2)
		return "Vendor/Unknown";

	switch (data[6]) {
	case SFE_VENDOR_OPCODE_REGISTER_REMOTE_CONTROL:
		return avc_debug & AVC_DEBUG_REGISTER_REMOTE_CONTROL ?
				"RegisterRC" : NULL;
	case SFE_VENDOR_OPCODE_LNB_CONTROL:
		return avc_debug & AVC_DEBUG_LNB_CONTROL ? "LNBControl" : NULL;
	case SFE_VENDOR_OPCODE_TUNE_QPSK:
		return avc_debug & AVC_DEBUG_TUNE_QPSK ? "TuneQPSK" : NULL;
	case SFE_VENDOR_OPCODE_TUNE_QPSK2:
		return avc_debug & AVC_DEBUG_TUNE_QPSK2 ? "TuneQPSK2" : NULL;
	case SFE_VENDOR_OPCODE_HOST2CA:
		return avc_debug & AVC_DEBUG_HOST2CA ? "Host2CA" : NULL;
	case SFE_VENDOR_OPCODE_CA2HOST:
		return avc_debug & AVC_DEBUG_CA2HOST ? "CA2Host" : NULL;
	}
	return "Vendor/Unknown";
}

static void debug_fcp(const u8 *data, int length)
{
	unsigned int subunit_type, subunit_id, opcode;
	const char *op, *prefix;

	prefix       = data[0] > 7 ? "FCP <- " : "FCP -> ";
	subunit_type = data[1] >> 3;
	subunit_id   = data[1] & 7;
	opcode       = subunit_type == 0x1e || subunit_id == 5 ? ~0 : data[2];
	op           = debug_fcp_opcode(opcode, data, length);

	if (op) {
		printk(KERN_INFO "%ssu=%x.%x l=%d: %-8s - %s\n",
		       prefix, subunit_type, subunit_id, length,
		       debug_fcp_ctype(data[0]), op);
		if (avc_debug & AVC_DEBUG_FCP_PAYLOADS)
			print_hex_dump(KERN_INFO, prefix, DUMP_PREFIX_NONE,
				       16, 1, data, length, false);
	}
}

static void debug_pmt(char *msg, int length)
{
	printk(KERN_INFO "APP PMT -> l=%d\n", length);
	print_hex_dump(KERN_INFO, "APP PMT -> ", DUMP_PREFIX_NONE,
		       16, 1, msg, length, false);
}

static int avc_write(struct firedtv *fdtv)
{
	int err, retry;

	fdtv->avc_reply_received = false;

	for (retry = 0; retry < 6; retry++) {
		if (unlikely(avc_debug))
			debug_fcp(fdtv->avc_data, fdtv->avc_data_length);

		err = fdtv->backend->write(fdtv, FCP_COMMAND_REGISTER,
				fdtv->avc_data, fdtv->avc_data_length);
		if (err) {
			dev_err(fdtv->device, "FCP command write failed\n");

			return err;
		}

		/*
		 * AV/C specs say that answers should be sent within 150 ms.
		 * Time out after 200 ms.
		 */
		if (wait_event_timeout(fdtv->avc_wait,
				       fdtv->avc_reply_received,
				       msecs_to_jiffies(200)) != 0)
			return 0;
	}
	dev_err(fdtv->device, "FCP response timed out\n");

	return -ETIMEDOUT;
}

static bool is_register_rc(struct avc_response_frame *r)
{
	return r->opcode     == AVC_OPCODE_VENDOR &&
	       r->operand[0] == SFE_VENDOR_DE_COMPANYID_0 &&
	       r->operand[1] == SFE_VENDOR_DE_COMPANYID_1 &&
	       r->operand[2] == SFE_VENDOR_DE_COMPANYID_2 &&
	       r->operand[3] == SFE_VENDOR_OPCODE_REGISTER_REMOTE_CONTROL;
}

int avc_recv(struct firedtv *fdtv, void *data, size_t length)
{
	struct avc_response_frame *r = data;

	if (unlikely(avc_debug))
		debug_fcp(data, length);

	if (length >= 8 && is_register_rc(r)) {
		switch (r->response) {
		case AVC_RESPONSE_CHANGED:
			fdtv_handle_rc(fdtv, r->operand[4] << 8 | r->operand[5]);
			schedule_work(&fdtv->remote_ctrl_work);
			break;
		case AVC_RESPONSE_INTERIM:
			if (is_register_rc((void *)fdtv->avc_data))
				goto wake;
			break;
		default:
			dev_info(fdtv->device,
				 "remote control result = %d\n", r->response);
		}
		return 0;
	}

	if (fdtv->avc_reply_received) {
		dev_err(fdtv->device, "out-of-order AVC response, ignored\n");
		return -EIO;
	}

	memcpy(fdtv->avc_data, data, length);
	fdtv->avc_data_length = length;
wake:
	fdtv->avc_reply_received = true;
	wake_up(&fdtv->avc_wait);

	return 0;
}

static int add_pid_filter(struct firedtv *fdtv, u8 *operand)
{
	int i, n, pos = 1;

	for (i = 0, n = 0; i < 16; i++) {
		if (test_bit(i, &fdtv->channel_active)) {
			operand[pos++] = 0x13; /* flowfunction relay */
			operand[pos++] = 0x80; /* dsd_sel_spec_valid_flags -> PID */
			operand[pos++] = (fdtv->channel_pid[i] >> 8) & 0x1f;
			operand[pos++] = fdtv->channel_pid[i] & 0xff;
			operand[pos++] = 0x00; /* tableID */
			operand[pos++] = 0x00; /* filter_length */
			n++;
		}
	}
	operand[0] = n;

	return pos;
}

/*
 * tuning command for setting the relative LNB frequency
 * (not supported by the AVC standard)
 */
static int avc_tuner_tuneqpsk(struct firedtv *fdtv,
			      struct dvb_frontend_parameters *params)
{
	struct avc_command_frame *c = (void *)fdtv->avc_data;

	c->opcode = AVC_OPCODE_VENDOR;

	c->operand[0] = SFE_VENDOR_DE_COMPANYID_0;
	c->operand[1] = SFE_VENDOR_DE_COMPANYID_1;
	c->operand[2] = SFE_VENDOR_DE_COMPANYID_2;
	if (fdtv->type == FIREDTV_DVB_S2)
		c->operand[3] = SFE_VENDOR_OPCODE_TUNE_QPSK2;
	else
		c->operand[3] = SFE_VENDOR_OPCODE_TUNE_QPSK;

	c->operand[4] = (params->frequency >> 24) & 0xff;
	c->operand[5] = (params->frequency >> 16) & 0xff;
	c->operand[6] = (params->frequency >> 8) & 0xff;
	c->operand[7] = params->frequency & 0xff;

	c->operand[8] = ((params->u.qpsk.symbol_rate / 1000) >> 8) & 0xff;
	c->operand[9] = (params->u.qpsk.symbol_rate / 1000) & 0xff;

	switch (params->u.qpsk.fec_inner) {
	case FEC_1_2:	c->operand[10] = 0x1; break;
	case FEC_2_3:	c->operand[10] = 0x2; break;
	case FEC_3_4:	c->operand[10] = 0x3; break;
	case FEC_5_6:	c->operand[10] = 0x4; break;
	case FEC_7_8:	c->operand[10] = 0x5; break;
	case FEC_4_5:
	case FEC_8_9:
	case FEC_AUTO:
	default:	c->operand[10] = 0x0;
	}

	if (fdtv->voltage == 0xff)
		c->operand[11] = 0xff;
	else if (fdtv->voltage == SEC_VOLTAGE_18) /* polarisation */
		c->operand[11] = 0;
	else
		c->operand[11] = 1;

	if (fdtv->tone == 0xff)
		c->operand[12] = 0xff;
	else if (fdtv->tone == SEC_TONE_ON) /* band */
		c->operand[12] = 1;
	else
		c->operand[12] = 0;

	if (fdtv->type == FIREDTV_DVB_S2) {
		c->operand[13] = 0x1;
		c->operand[14] = 0xff;
		c->operand[15] = 0xff;

		return 16;
	} else {
		return 13;
	}
}

static int avc_tuner_dsd_dvb_c(struct firedtv *fdtv,
			       struct dvb_frontend_parameters *params)
{
	struct avc_command_frame *c = (void *)fdtv->avc_data;

	c->opcode = AVC_OPCODE_DSD;

	c->operand[0] = 0;    /* source plug */
	c->operand[1] = 0xd2; /* subfunction replace */
	c->operand[2] = 0x20; /* system id = DVB */
	c->operand[3] = 0x00; /* antenna number */
	c->operand[4] = 0x11; /* system_specific_multiplex selection_length */

	/* multiplex_valid_flags, high byte */
	c->operand[5] =   0 << 7 /* reserved */
			| 0 << 6 /* Polarisation */
			| 0 << 5 /* Orbital_Pos */
			| 1 << 4 /* Frequency */
			| 1 << 3 /* Symbol_Rate */
			| 0 << 2 /* FEC_outer */
			| (params->u.qam.fec_inner  != FEC_AUTO ? 1 << 1 : 0)
			| (params->u.qam.modulation != QAM_AUTO ? 1 << 0 : 0);

	/* multiplex_valid_flags, low byte */
	c->operand[6] =   0 << 7 /* NetworkID */
			| 0 << 0 /* reserved */ ;

	c->operand[7]  = 0x00;
	c->operand[8]  = 0x00;
	c->operand[9]  = 0x00;
	c->operand[10] = 0x00;

	c->operand[11] = (((params->frequency / 4000) >> 16) & 0xff) | (2 << 6);
	c->operand[12] = ((params->frequency / 4000) >> 8) & 0xff;
	c->operand[13] = (params->frequency / 4000) & 0xff;
	c->operand[14] = ((params->u.qpsk.symbol_rate / 1000) >> 12) & 0xff;
	c->operand[15] = ((params->u.qpsk.symbol_rate / 1000) >> 4) & 0xff;
	c->operand[16] = ((params->u.qpsk.symbol_rate / 1000) << 4) & 0xf0;
	c->operand[17] = 0x00;

	switch (params->u.qpsk.fec_inner) {
	case FEC_1_2:	c->operand[18] = 0x1; break;
	case FEC_2_3:	c->operand[18] = 0x2; break;
	case FEC_3_4:	c->operand[18] = 0x3; break;
	case FEC_5_6:	c->operand[18] = 0x4; break;
	case FEC_7_8:	c->operand[18] = 0x5; break;
	case FEC_8_9:	c->operand[18] = 0x6; break;
	case FEC_4_5:	c->operand[18] = 0x8; break;
	case FEC_AUTO:
	default:	c->operand[18] = 0x0;
	}

	switch (params->u.qam.modulation) {
	case QAM_16:	c->operand[19] = 0x08; break;
	case QAM_32:	c->operand[19] = 0x10; break;
	case QAM_64:	c->operand[19] = 0x18; break;
	case QAM_128:	c->operand[19] = 0x20; break;
	case QAM_256:	c->operand[19] = 0x28; break;
	case QAM_AUTO:
	default:	c->operand[19] = 0x00;
	}

	c->operand[20] = 0x00;
	c->operand[21] = 0x00;

	return 22 + add_pid_filter(fdtv, &c->operand[22]);
}

static int avc_tuner_dsd_dvb_t(struct firedtv *fdtv,
			       struct dvb_frontend_parameters *params)
{
	struct dvb_ofdm_parameters *ofdm = &params->u.ofdm;
	struct avc_command_frame *c = (void *)fdtv->avc_data;

	c->opcode = AVC_OPCODE_DSD;

	c->operand[0] = 0;    /* source plug */
	c->operand[1] = 0xd2; /* subfunction replace */
	c->operand[2] = 0x20; /* system id = DVB */
	c->operand[3] = 0x00; /* antenna number */
	c->operand[4] = 0x0c; /* system_specific_multiplex selection_length */

	/* multiplex_valid_flags, high byte */
	c->operand[5] =
	      0 << 7 /* reserved */
	    | 1 << 6 /* CenterFrequency */
	    | (ofdm->bandwidth      != BANDWIDTH_AUTO        ? 1 << 5 : 0)
	    | (ofdm->constellation  != QAM_AUTO              ? 1 << 4 : 0)
	    | (ofdm->hierarchy_information != HIERARCHY_AUTO ? 1 << 3 : 0)
	    | (ofdm->code_rate_HP   != FEC_AUTO              ? 1 << 2 : 0)
	    | (ofdm->code_rate_LP   != FEC_AUTO              ? 1 << 1 : 0)
	    | (ofdm->guard_interval != GUARD_INTERVAL_AUTO   ? 1 << 0 : 0);

	/* multiplex_valid_flags, low byte */
	c->operand[6] =
	      0 << 7 /* NetworkID */
	    | (ofdm->transmission_mode != TRANSMISSION_MODE_AUTO ? 1 << 6 : 0)
	    | 0 << 5 /* OtherFrequencyFlag */
	    | 0 << 0 /* reserved */ ;

	c->operand[7]  = 0x0;
	c->operand[8]  = (params->frequency / 10) >> 24;
	c->operand[9]  = ((params->frequency / 10) >> 16) & 0xff;
	c->operand[10] = ((params->frequency / 10) >>  8) & 0xff;
	c->operand[11] = (params->frequency / 10) & 0xff;

	switch (ofdm->bandwidth) {
	case BANDWIDTH_7_MHZ:	c->operand[12] = 0x20; break;
	case BANDWIDTH_8_MHZ:
	case BANDWIDTH_6_MHZ:	/* not defined by AVC spec */
	case BANDWIDTH_AUTO:
	default:		c->operand[12] = 0x00;
	}

	switch (ofdm->constellation) {
	case QAM_16:	c->operand[13] = 1 << 6; break;
	case QAM_64:	c->operand[13] = 2 << 6; break;
	case QPSK:
	default:	c->operand[13] = 0x00;
	}

	switch (ofdm->hierarchy_information) {
	case HIERARCHY_1:	c->operand[13] |= 1 << 3; break;
	case HIERARCHY_2:	c->operand[13] |= 2 << 3; break;
	case HIERARCHY_4:	c->operand[13] |= 3 << 3; break;
	case HIERARCHY_AUTO:
	case HIERARCHY_NONE:
	default:		break;
	}

	switch (ofdm->code_rate_HP) {
	case FEC_2_3:	c->operand[13] |= 1; break;
	case FEC_3_4:	c->operand[13] |= 2; break;
	case FEC_5_6:	c->operand[13] |= 3; break;
	case FEC_7_8:	c->operand[13] |= 4; break;
	case FEC_1_2:
	default:	break;
	}

	switch (ofdm->code_rate_LP) {
	case FEC_2_3:	c->operand[14] = 1 << 5; break;
	case FEC_3_4:	c->operand[14] = 2 << 5; break;
	case FEC_5_6:	c->operand[14] = 3 << 5; break;
	case FEC_7_8:	c->operand[14] = 4 << 5; break;
	case FEC_1_2:
	default:	c->operand[14] = 0x00; break;
	}

	switch (ofdm->guard_interval) {
	case GUARD_INTERVAL_1_16:	c->operand[14] |= 1 << 3; break;
	case GUARD_INTERVAL_1_8:	c->operand[14] |= 2 << 3; break;
	case GUARD_INTERVAL_1_4:	c->operand[14] |= 3 << 3; break;
	case GUARD_INTERVAL_1_32:
	case GUARD_INTERVAL_AUTO:
	default:			break;
	}

	switch (ofdm->transmission_mode) {
	case TRANSMISSION_MODE_8K:	c->operand[14] |= 1 << 1; break;
	case TRANSMISSION_MODE_2K:
	case TRANSMISSION_MODE_AUTO:
	default:			break;
	}

	c->operand[15] = 0x00; /* network_ID[0] */
	c->operand[16] = 0x00; /* network_ID[1] */

	return 17 + add_pid_filter(fdtv, &c->operand[17]);
}

int avc_tuner_dsd(struct firedtv *fdtv,
		  struct dvb_frontend_parameters *params)
{
	struct avc_command_frame *c = (void *)fdtv->avc_data;
	int pos, ret;

	mutex_lock(&fdtv->avc_mutex);

	c->ctype   = AVC_CTYPE_CONTROL;
	c->subunit = AVC_SUBUNIT_TYPE_TUNER | fdtv->subunit;

	switch (fdtv->type) {
	case FIREDTV_DVB_S:
	case FIREDTV_DVB_S2: pos = avc_tuner_tuneqpsk(fdtv, params); break;
	case FIREDTV_DVB_C: pos = avc_tuner_dsd_dvb_c(fdtv, params); break;
	case FIREDTV_DVB_T: pos = avc_tuner_dsd_dvb_t(fdtv, params); break;
	default:
		BUG();
	}
	pad_operands(c, pos);

	fdtv->avc_data_length = ALIGN(3 + pos, 4);
	ret = avc_write(fdtv);
#if 0
	/*
	 * FIXME:
	 * u8 *status was an out-parameter of avc_tuner_dsd, unused by caller.
	 * Check for AVC_RESPONSE_ACCEPTED here instead?
	 */
	if (status)
		*status = r->operand[2];
#endif
	mutex_unlock(&fdtv->avc_mutex);

	if (ret == 0)
		msleep(500);

	return ret;
}

int avc_tuner_set_pids(struct firedtv *fdtv, unsigned char pidc, u16 pid[])
{
	struct avc_command_frame *c = (void *)fdtv->avc_data;
	int ret, pos, k;

	if (pidc > 16 && pidc != 0xff)
		return -EINVAL;

	mutex_lock(&fdtv->avc_mutex);

	c->ctype   = AVC_CTYPE_CONTROL;
	c->subunit = AVC_SUBUNIT_TYPE_TUNER | fdtv->subunit;
	c->opcode  = AVC_OPCODE_DSD;

	c->operand[0] = 0;	/* source plug */
	c->operand[1] = 0xd2;	/* subfunction replace */
	c->operand[2] = 0x20;	/* system id = DVB */
	c->operand[3] = 0x00;	/* antenna number */
	c->operand[4] = 0x00;	/* system_specific_multiplex selection_length */
	c->operand[5] = pidc;	/* Nr_of_dsd_sel_specs */

	pos = 6;
	if (pidc != 0xff)
		for (k = 0; k < pidc; k++) {
			c->operand[pos++] = 0x13; /* flowfunction relay */
			c->operand[pos++] = 0x80; /* dsd_sel_spec_valid_flags -> PID */
			c->operand[pos++] = (pid[k] >> 8) & 0x1f;
			c->operand[pos++] = pid[k] & 0xff;
			c->operand[pos++] = 0x00; /* tableID */
			c->operand[pos++] = 0x00; /* filter_length */
		}
	pad_operands(c, pos);

	fdtv->avc_data_length = ALIGN(3 + pos, 4);
	ret = avc_write(fdtv);

	/* FIXME: check response code? */

	mutex_unlock(&fdtv->avc_mutex);

	if (ret == 0)
		msleep(50);

	return ret;
}

int avc_tuner_get_ts(struct firedtv *fdtv)
{
	struct avc_command_frame *c = (void *)fdtv->avc_data;
	int ret, sl;

	mutex_lock(&fdtv->avc_mutex);

	c->ctype   = AVC_CTYPE_CONTROL;
	c->subunit = AVC_SUBUNIT_TYPE_TUNER | fdtv->subunit;
	c->opcode  = AVC_OPCODE_DSIT;

	sl = fdtv->type == FIREDTV_DVB_T ? 0x0c : 0x11;

	c->operand[0] = 0;	/* source plug */
	c->operand[1] = 0xd2;	/* subfunction replace */
	c->operand[2] = 0xff;	/* status */
	c->operand[3] = 0x20;	/* system id = DVB */
	c->operand[4] = 0x00;	/* antenna number */
	c->operand[5] = 0x0; 	/* system_specific_search_flags */
	c->operand[6] = sl;	/* system_specific_multiplex selection_length */
	/*
	 * operand[7]: valid_flags[0]
	 * operand[8]: valid_flags[1]
	 * operand[7 + sl]: nr_of_dsit_sel_specs (always 0)
	 */
	clear_operands(c, 7, 24);

	fdtv->avc_data_length = fdtv->type == FIREDTV_DVB_T ? 24 : 28;
	ret = avc_write(fdtv);

	/* FIXME: check response code? */

	mutex_unlock(&fdtv->avc_mutex);

	if (ret == 0)
		msleep(250);

	return ret;
}

int avc_identify_subunit(struct firedtv *fdtv)
{
	struct avc_command_frame *c = (void *)fdtv->avc_data;
	struct avc_response_frame *r = (void *)fdtv->avc_data;
	int ret;

	mutex_lock(&fdtv->avc_mutex);

	c->ctype   = AVC_CTYPE_CONTROL;
	c->subunit = AVC_SUBUNIT_TYPE_TUNER | fdtv->subunit;
	c->opcode  = AVC_OPCODE_READ_DESCRIPTOR;

	c->operand[0] = DESCRIPTOR_SUBUNIT_IDENTIFIER;
	c->operand[1] = 0xff;
	c->operand[2] = 0x00;
	c->operand[3] = 0x00; /* length highbyte */
	c->operand[4] = 0x08; /* length lowbyte  */
	c->operand[5] = 0x00; /* offset highbyte */
	c->operand[6] = 0x0d; /* offset lowbyte  */
	clear_operands(c, 7, 8); /* padding */

	fdtv->avc_data_length = 12;
	ret = avc_write(fdtv);
	if (ret < 0)
		goto out;

	if ((r->response != AVC_RESPONSE_STABLE &&
	     r->response != AVC_RESPONSE_ACCEPTED) ||
	    (r->operand[3] << 8) + r->operand[4] != 8) {
		dev_err(fdtv->device, "cannot read subunit identifier\n");
		ret = -EINVAL;
	}
out:
	mutex_unlock(&fdtv->avc_mutex);

	return ret;
}

#define SIZEOF_ANTENNA_INPUT_INFO 22

int avc_tuner_status(struct firedtv *fdtv, struct firedtv_tuner_status *stat)
{
	struct avc_command_frame *c = (void *)fdtv->avc_data;
	struct avc_response_frame *r = (void *)fdtv->avc_data;
	int length, ret;

	mutex_lock(&fdtv->avc_mutex);

	c->ctype   = AVC_CTYPE_CONTROL;
	c->subunit = AVC_SUBUNIT_TYPE_TUNER | fdtv->subunit;
	c->opcode  = AVC_OPCODE_READ_DESCRIPTOR;

	c->operand[0] = DESCRIPTOR_TUNER_STATUS;
	c->operand[1] = 0xff;	/* read_result_status */
	/*
	 * operand[2]: reserved
	 * operand[3]: SIZEOF_ANTENNA_INPUT_INFO >> 8
	 * operand[4]: SIZEOF_ANTENNA_INPUT_INFO & 0xff
	 */
	clear_operands(c, 2, 31);

	fdtv->avc_data_length = 12;
	ret = avc_write(fdtv);
	if (ret < 0)
		goto out;

	if (r->response != AVC_RESPONSE_STABLE &&
	    r->response != AVC_RESPONSE_ACCEPTED) {
		dev_err(fdtv->device, "cannot read tuner status\n");
		ret = -EINVAL;
		goto out;
	}

	length = r->operand[9];
	if (r->operand[1] != 0x10 || length != SIZEOF_ANTENNA_INPUT_INFO) {
		dev_err(fdtv->device, "got invalid tuner status\n");
		ret = -EINVAL;
		goto out;
	}

	stat->active_system		= r->operand[10];
	stat->searching			= r->operand[11] >> 7 & 1;
	stat->moving			= r->operand[11] >> 6 & 1;
	stat->no_rf			= r->operand[11] >> 5 & 1;
	stat->input			= r->operand[12] >> 7 & 1;
	stat->selected_antenna		= r->operand[12] & 0x7f;
	stat->ber			= r->operand[13] << 24 |
					  r->operand[14] << 16 |
					  r->operand[15] << 8 |
					  r->operand[16];
	stat->signal_strength		= r->operand[17];
	stat->raster_frequency		= r->operand[18] >> 6 & 2;
	stat->rf_frequency		= (r->operand[18] & 0x3f) << 16 |
					  r->operand[19] << 8 |
					  r->operand[20];
	stat->man_dep_info_length	= r->operand[21];
	stat->front_end_error		= r->operand[22] >> 4 & 1;
	stat->antenna_error		= r->operand[22] >> 3 & 1;
	stat->front_end_power_status	= r->operand[22] >> 1 & 1;
	stat->power_supply		= r->operand[22] & 1;
	stat->carrier_noise_ratio	= r->operand[23] << 8 |
					  r->operand[24];
	stat->power_supply_voltage	= r->operand[27];
	stat->antenna_voltage		= r->operand[28];
	stat->firewire_bus_voltage	= r->operand[29];
	stat->ca_mmi			= r->operand[30] & 1;
	stat->ca_pmt_reply		= r->operand[31] >> 7 & 1;
	stat->ca_date_time_request	= r->operand[31] >> 6 & 1;
	stat->ca_application_info	= r->operand[31] >> 5 & 1;
	stat->ca_module_present_status	= r->operand[31] >> 4 & 1;
	stat->ca_dvb_flag		= r->operand[31] >> 3 & 1;
	stat->ca_error_flag		= r->operand[31] >> 2 & 1;
	stat->ca_initialization_status	= r->operand[31] >> 1 & 1;
out:
	mutex_unlock(&fdtv->avc_mutex);

	return ret;
}

int avc_lnb_control(struct firedtv *fdtv, char voltage, char burst,
		    char conttone, char nrdiseq,
		    struct dvb_diseqc_master_cmd *diseqcmd)
{
	struct avc_command_frame *c = (void *)fdtv->avc_data;
	struct avc_response_frame *r = (void *)fdtv->avc_data;
	int pos, j, k, ret;

	mutex_lock(&fdtv->avc_mutex);

	c->ctype   = AVC_CTYPE_CONTROL;
	c->subunit = AVC_SUBUNIT_TYPE_TUNER | fdtv->subunit;
	c->opcode  = AVC_OPCODE_VENDOR;

	c->operand[0] = SFE_VENDOR_DE_COMPANYID_0;
	c->operand[1] = SFE_VENDOR_DE_COMPANYID_1;
	c->operand[2] = SFE_VENDOR_DE_COMPANYID_2;
	c->operand[3] = SFE_VENDOR_OPCODE_LNB_CONTROL;
	c->operand[4] = voltage;
	c->operand[5] = nrdiseq;

	pos = 6;
	for (j = 0; j < nrdiseq; j++) {
		c->operand[pos++] = diseqcmd[j].msg_len;

		for (k = 0; k < diseqcmd[j].msg_len; k++)
			c->operand[pos++] = diseqcmd[j].msg[k];
	}
	c->operand[pos++] = burst;
	c->operand[pos++] = conttone;
	pad_operands(c, pos);

	fdtv->avc_data_length = ALIGN(3 + pos, 4);
	ret = avc_write(fdtv);
	if (ret < 0)
		goto out;

	if (r->response != AVC_RESPONSE_ACCEPTED) {
		dev_err(fdtv->device, "LNB control failed\n");
		ret = -EINVAL;
	}
out:
	mutex_unlock(&fdtv->avc_mutex);

	return ret;
}

int avc_register_remote_control(struct firedtv *fdtv)
{
	struct avc_command_frame *c = (void *)fdtv->avc_data;
	int ret;

	mutex_lock(&fdtv->avc_mutex);

	c->ctype   = AVC_CTYPE_NOTIFY;
	c->subunit = AVC_SUBUNIT_TYPE_UNIT | 7;
	c->opcode  = AVC_OPCODE_VENDOR;

	c->operand[0] = SFE_VENDOR_DE_COMPANYID_0;
	c->operand[1] = SFE_VENDOR_DE_COMPANYID_1;
	c->operand[2] = SFE_VENDOR_DE_COMPANYID_2;
	c->operand[3] = SFE_VENDOR_OPCODE_REGISTER_REMOTE_CONTROL;
	c->operand[4] = 0; /* padding */

	fdtv->avc_data_length = 8;
	ret = avc_write(fdtv);

	/* FIXME: check response code? */

	mutex_unlock(&fdtv->avc_mutex);

	return ret;
}

void avc_remote_ctrl_work(struct work_struct *work)
{
	struct firedtv *fdtv =
			container_of(work, struct firedtv, remote_ctrl_work);

	/* Should it be rescheduled in failure cases? */
	avc_register_remote_control(fdtv);
}

#if 0 /* FIXME: unused */
int avc_tuner_host2ca(struct firedtv *fdtv)
{
	struct avc_command_frame *c = (void *)fdtv->avc_data;
	int ret;

	mutex_lock(&fdtv->avc_mutex);

	c->ctype   = AVC_CTYPE_CONTROL;
	c->subunit = AVC_SUBUNIT_TYPE_TUNER | fdtv->subunit;
	c->opcode  = AVC_OPCODE_VENDOR;

	c->operand[0] = SFE_VENDOR_DE_COMPANYID_0;
	c->operand[1] = SFE_VENDOR_DE_COMPANYID_1;
	c->operand[2] = SFE_VENDOR_DE_COMPANYID_2;
	c->operand[3] = SFE_VENDOR_OPCODE_HOST2CA;
	c->operand[4] = 0; /* slot */
	c->operand[5] = SFE_VENDOR_TAG_CA_APPLICATION_INFO; /* ca tag */
	clear_operands(c, 6, 8);

	fdtv->avc_data_length = 12;
	ret = avc_write(fdtv);

	/* FIXME: check response code? */

	mutex_unlock(&fdtv->avc_mutex);

	return ret;
}
#endif

static int get_ca_object_pos(struct avc_response_frame *r)
{
	int length = 1;

	/* Check length of length field */
	if (r->operand[7] & 0x80)
		length = (r->operand[7] & 0x7f) + 1;
	return length + 7;
}

static int get_ca_object_length(struct avc_response_frame *r)
{
#if 0 /* FIXME: unused */
	int size = 0;
	int i;

	if (r->operand[7] & 0x80)
		for (i = 0; i < (r->operand[7] & 0x7f); i++) {
			size <<= 8;
			size += r->operand[8 + i];
		}
#endif
	return r->operand[7];
}

int avc_ca_app_info(struct firedtv *fdtv, char *app_info, unsigned int *len)
{
	struct avc_command_frame *c = (void *)fdtv->avc_data;
	struct avc_response_frame *r = (void *)fdtv->avc_data;
	int pos, ret;

	mutex_lock(&fdtv->avc_mutex);

	c->ctype   = AVC_CTYPE_STATUS;
	c->subunit = AVC_SUBUNIT_TYPE_TUNER | fdtv->subunit;
	c->opcode  = AVC_OPCODE_VENDOR;

	c->operand[0] = SFE_VENDOR_DE_COMPANYID_0;
	c->operand[1] = SFE_VENDOR_DE_COMPANYID_1;
	c->operand[2] = SFE_VENDOR_DE_COMPANYID_2;
	c->operand[3] = SFE_VENDOR_OPCODE_CA2HOST;
	c->operand[4] = 0; /* slot */
	c->operand[5] = SFE_VENDOR_TAG_CA_APPLICATION_INFO; /* ca tag */
	clear_operands(c, 6, LAST_OPERAND);

	fdtv->avc_data_length = 12;
	ret = avc_write(fdtv);
	if (ret < 0)
		goto out;

	/* FIXME: check response code and validate response data */

	pos = get_ca_object_pos(r);
	app_info[0] = (EN50221_TAG_APP_INFO >> 16) & 0xff;
	app_info[1] = (EN50221_TAG_APP_INFO >>  8) & 0xff;
	app_info[2] = (EN50221_TAG_APP_INFO >>  0) & 0xff;
	app_info[3] = 6 + r->operand[pos + 4];
	app_info[4] = 0x01;
	memcpy(&app_info[5], &r->operand[pos], 5 + r->operand[pos + 4]);
	*len = app_info[3] + 4;
out:
	mutex_unlock(&fdtv->avc_mutex);

	return ret;
}

int avc_ca_info(struct firedtv *fdtv, char *app_info, unsigned int *len)
{
	struct avc_command_frame *c = (void *)fdtv->avc_data;
	struct avc_response_frame *r = (void *)fdtv->avc_data;
	int pos, ret;

	mutex_lock(&fdtv->avc_mutex);

	c->ctype   = AVC_CTYPE_STATUS;
	c->subunit = AVC_SUBUNIT_TYPE_TUNER | fdtv->subunit;
	c->opcode  = AVC_OPCODE_VENDOR;

	c->operand[0] = SFE_VENDOR_DE_COMPANYID_0;
	c->operand[1] = SFE_VENDOR_DE_COMPANYID_1;
	c->operand[2] = SFE_VENDOR_DE_COMPANYID_2;
	c->operand[3] = SFE_VENDOR_OPCODE_CA2HOST;
	c->operand[4] = 0; /* slot */
	c->operand[5] = SFE_VENDOR_TAG_CA_APPLICATION_INFO; /* ca tag */
	clear_operands(c, 6, LAST_OPERAND);

	fdtv->avc_data_length = 12;
	ret = avc_write(fdtv);
	if (ret < 0)
		goto out;

	/* FIXME: check response code and validate response data */

	pos = get_ca_object_pos(r);
	app_info[0] = (EN50221_TAG_CA_INFO >> 16) & 0xff;
	app_info[1] = (EN50221_TAG_CA_INFO >>  8) & 0xff;
	app_info[2] = (EN50221_TAG_CA_INFO >>  0) & 0xff;
	app_info[3] = 2;
	app_info[4] = r->operand[pos + 0];
	app_info[5] = r->operand[pos + 1];
	*len = app_info[3] + 4;
out:
	mutex_unlock(&fdtv->avc_mutex);

	return ret;
}

int avc_ca_reset(struct firedtv *fdtv)
{
	struct avc_command_frame *c = (void *)fdtv->avc_data;
	int ret;

	mutex_lock(&fdtv->avc_mutex);

	c->ctype   = AVC_CTYPE_CONTROL;
	c->subunit = AVC_SUBUNIT_TYPE_TUNER | fdtv->subunit;
	c->opcode  = AVC_OPCODE_VENDOR;

	c->operand[0] = SFE_VENDOR_DE_COMPANYID_0;
	c->operand[1] = SFE_VENDOR_DE_COMPANYID_1;
	c->operand[2] = SFE_VENDOR_DE_COMPANYID_2;
	c->operand[3] = SFE_VENDOR_OPCODE_HOST2CA;
	c->operand[4] = 0; /* slot */
	c->operand[5] = SFE_VENDOR_TAG_CA_RESET; /* ca tag */
	c->operand[6] = 0; /* more/last */
	c->operand[7] = 1; /* length */
	c->operand[8] = 0; /* force hardware reset */

	fdtv->avc_data_length = 12;
	ret = avc_write(fdtv);

	/* FIXME: check response code? */

	mutex_unlock(&fdtv->avc_mutex);

	return ret;
}

int avc_ca_pmt(struct firedtv *fdtv, char *msg, int length)
{
	struct avc_command_frame *c = (void *)fdtv->avc_data;
	struct avc_response_frame *r = (void *)fdtv->avc_data;
	int list_management;
	int program_info_length;
	int pmt_cmd_id;
	int read_pos;
	int write_pos;
	int es_info_length;
	int crc32_csum;
	int ret;

	if (unlikely(avc_debug & AVC_DEBUG_APPLICATION_PMT))
		debug_pmt(msg, length);

	mutex_lock(&fdtv->avc_mutex);

	c->ctype   = AVC_CTYPE_CONTROL;
	c->subunit = AVC_SUBUNIT_TYPE_TUNER | fdtv->subunit;
	c->opcode  = AVC_OPCODE_VENDOR;

	if (msg[0] != EN50221_LIST_MANAGEMENT_ONLY) {
		dev_info(fdtv->device, "forcing list_management to ONLY\n");
		msg[0] = EN50221_LIST_MANAGEMENT_ONLY;
	}
	/* We take the cmd_id from the programme level only! */
	list_management = msg[0];
	program_info_length = ((msg[4] & 0x0f) << 8) + msg[5];
	if (program_info_length > 0)
		program_info_length--; /* Remove pmt_cmd_id */
	pmt_cmd_id = msg[6];

	c->operand[0] = SFE_VENDOR_DE_COMPANYID_0;
	c->operand[1] = SFE_VENDOR_DE_COMPANYID_1;
	c->operand[2] = SFE_VENDOR_DE_COMPANYID_2;
	c->operand[3] = SFE_VENDOR_OPCODE_HOST2CA;
	c->operand[4] = 0; /* slot */
	c->operand[5] = SFE_VENDOR_TAG_CA_PMT; /* ca tag */
	c->operand[6] = 0; /* more/last */
	/* Use three bytes for length field in case length > 127 */
	c->operand[10] = list_management;
	c->operand[11] = 0x01; /* pmt_cmd=OK_descramble */

	/* TS program map table */

	c->operand[12] = 0x02; /* Table id=2 */
	c->operand[13] = 0x80; /* Section syntax + length */

	c->operand[15] = msg[1]; /* Program number */
	c->operand[16] = msg[2];
	c->operand[17] = 0x01; /* Version number=0 + current/next=1 */
	c->operand[18] = 0x00; /* Section number=0 */
	c->operand[19] = 0x00; /* Last section number=0 */
	c->operand[20] = 0x1f; /* PCR_PID=1FFF */
	c->operand[21] = 0xff;
	c->operand[22] = (program_info_length >> 8); /* Program info length */
	c->operand[23] = (program_info_length & 0xff);

	/* CA descriptors at programme level */
	read_pos = 6;
	write_pos = 24;
	if (program_info_length > 0) {
		pmt_cmd_id = msg[read_pos++];
		if (pmt_cmd_id != 1 && pmt_cmd_id != 4)
			dev_err(fdtv->device,
				"invalid pmt_cmd_id %d\n", pmt_cmd_id);

		memcpy(&c->operand[write_pos], &msg[read_pos],
		       program_info_length);
		read_pos += program_info_length;
		write_pos += program_info_length;
	}
	while (read_pos < length) {
		c->operand[write_pos++] = msg[read_pos++];
		c->operand[write_pos++] = msg[read_pos++];
		c->operand[write_pos++] = msg[read_pos++];
		es_info_length =
			((msg[read_pos] & 0x0f) << 8) + msg[read_pos + 1];
		read_pos += 2;
		if (es_info_length > 0)
			es_info_length--; /* Remove pmt_cmd_id */
		c->operand[write_pos++] = es_info_length >> 8;
		c->operand[write_pos++] = es_info_length & 0xff;
		if (es_info_length > 0) {
			pmt_cmd_id = msg[read_pos++];
			if (pmt_cmd_id != 1 && pmt_cmd_id != 4)
				dev_err(fdtv->device, "invalid pmt_cmd_id %d "
					"at stream level\n", pmt_cmd_id);

			memcpy(&c->operand[write_pos], &msg[read_pos],
			       es_info_length);
			read_pos += es_info_length;
			write_pos += es_info_length;
		}
	}
	write_pos += 4; /* CRC */

	c->operand[7] = 0x82;
	c->operand[8] = (write_pos - 10) >> 8;
	c->operand[9] = (write_pos - 10) & 0xff;
	c->operand[14] = write_pos - 15;

	crc32_csum = crc32_be(0, &c->operand[10], c->operand[12] - 1);
	c->operand[write_pos - 4] = (crc32_csum >> 24) & 0xff;
	c->operand[write_pos - 3] = (crc32_csum >> 16) & 0xff;
	c->operand[write_pos - 2] = (crc32_csum >>  8) & 0xff;
	c->operand[write_pos - 1] = (crc32_csum >>  0) & 0xff;
	pad_operands(c, write_pos);

	fdtv->avc_data_length = ALIGN(3 + write_pos, 4);
	ret = avc_write(fdtv);
	if (ret < 0)
		goto out;

	if (r->response != AVC_RESPONSE_ACCEPTED) {
		dev_err(fdtv->device,
			"CA PMT failed with response 0x%x\n", r->response);
		ret = -EFAULT;
	}
out:
	mutex_unlock(&fdtv->avc_mutex);

	return ret;
}

int avc_ca_get_time_date(struct firedtv *fdtv, int *interval)
{
	struct avc_command_frame *c = (void *)fdtv->avc_data;
	struct avc_response_frame *r = (void *)fdtv->avc_data;
	int ret;

	mutex_lock(&fdtv->avc_mutex);

	c->ctype   = AVC_CTYPE_STATUS;
	c->subunit = AVC_SUBUNIT_TYPE_TUNER | fdtv->subunit;
	c->opcode  = AVC_OPCODE_VENDOR;

	c->operand[0] = SFE_VENDOR_DE_COMPANYID_0;
	c->operand[1] = SFE_VENDOR_DE_COMPANYID_1;
	c->operand[2] = SFE_VENDOR_DE_COMPANYID_2;
	c->operand[3] = SFE_VENDOR_OPCODE_CA2HOST;
	c->operand[4] = 0; /* slot */
	c->operand[5] = SFE_VENDOR_TAG_CA_DATE_TIME; /* ca tag */
	clear_operands(c, 6, LAST_OPERAND);

	fdtv->avc_data_length = 12;
	ret = avc_write(fdtv);
	if (ret < 0)
		goto out;

	/* FIXME: check response code and validate response data */

	*interval = r->operand[get_ca_object_pos(r)];
out:
	mutex_unlock(&fdtv->avc_mutex);

	return ret;
}

int avc_ca_enter_menu(struct firedtv *fdtv)
{
	struct avc_command_frame *c = (void *)fdtv->avc_data;
	int ret;

	mutex_lock(&fdtv->avc_mutex);

	c->ctype   = AVC_CTYPE_STATUS;
	c->subunit = AVC_SUBUNIT_TYPE_TUNER | fdtv->subunit;
	c->opcode  = AVC_OPCODE_VENDOR;

	c->operand[0] = SFE_VENDOR_DE_COMPANYID_0;
	c->operand[1] = SFE_VENDOR_DE_COMPANYID_1;
	c->operand[2] = SFE_VENDOR_DE_COMPANYID_2;
	c->operand[3] = SFE_VENDOR_OPCODE_HOST2CA;
	c->operand[4] = 0; /* slot */
	c->operand[5] = SFE_VENDOR_TAG_CA_ENTER_MENU;
	clear_operands(c, 6, 8);

	fdtv->avc_data_length = 12;
	ret = avc_write(fdtv);

	/* FIXME: check response code? */

	mutex_unlock(&fdtv->avc_mutex);

	return ret;
}

int avc_ca_get_mmi(struct firedtv *fdtv, char *mmi_object, unsigned int *len)
{
	struct avc_command_frame *c = (void *)fdtv->avc_data;
	struct avc_response_frame *r = (void *)fdtv->avc_data;
	int ret;

	mutex_lock(&fdtv->avc_mutex);

	c->ctype   = AVC_CTYPE_STATUS;
	c->subunit = AVC_SUBUNIT_TYPE_TUNER | fdtv->subunit;
	c->opcode  = AVC_OPCODE_VENDOR;

	c->operand[0] = SFE_VENDOR_DE_COMPANYID_0;
	c->operand[1] = SFE_VENDOR_DE_COMPANYID_1;
	c->operand[2] = SFE_VENDOR_DE_COMPANYID_2;
	c->operand[3] = SFE_VENDOR_OPCODE_CA2HOST;
	c->operand[4] = 0; /* slot */
	c->operand[5] = SFE_VENDOR_TAG_CA_MMI;
	clear_operands(c, 6, LAST_OPERAND);

	fdtv->avc_data_length = 12;
	ret = avc_write(fdtv);
	if (ret < 0)
		goto out;

	/* FIXME: check response code and validate response data */

	*len = get_ca_object_length(r);
	memcpy(mmi_object, &r->operand[get_ca_object_pos(r)], *len);
out:
	mutex_unlock(&fdtv->avc_mutex);

	return ret;
}

#define CMP_OUTPUT_PLUG_CONTROL_REG_0	0xfffff0000904ULL

static int cmp_read(struct firedtv *fdtv, u64 addr, __be32 *data)
{
	int ret;

	mutex_lock(&fdtv->avc_mutex);

	ret = fdtv->backend->read(fdtv, addr, data);
	if (ret < 0)
		dev_err(fdtv->device, "CMP: read I/O error\n");

	mutex_unlock(&fdtv->avc_mutex);

	return ret;
}

static int cmp_lock(struct firedtv *fdtv, u64 addr, __be32 data[])
{
	int ret;

	mutex_lock(&fdtv->avc_mutex);

	/* data[] is stack-allocated and should not be DMA-mapped. */
	memcpy(fdtv->avc_data, data, 8);

	ret = fdtv->backend->lock(fdtv, addr, fdtv->avc_data);
	if (ret < 0)
		dev_err(fdtv->device, "CMP: lock I/O error\n");
	else
		memcpy(data, fdtv->avc_data, 8);

	mutex_unlock(&fdtv->avc_mutex);

	return ret;
}

static inline u32 get_opcr(__be32 opcr, u32 mask, u32 shift)
{
	return (be32_to_cpu(opcr) >> shift) & mask;
}

static inline void set_opcr(__be32 *opcr, u32 value, u32 mask, u32 shift)
{
	*opcr &= ~cpu_to_be32(mask << shift);
	*opcr |= cpu_to_be32((value & mask) << shift);
}

#define get_opcr_online(v)		get_opcr((v), 0x1, 31)
#define get_opcr_p2p_connections(v)	get_opcr((v), 0x3f, 24)
#define get_opcr_channel(v)		get_opcr((v), 0x3f, 16)

#define set_opcr_p2p_connections(p, v)	set_opcr((p), (v), 0x3f, 24)
#define set_opcr_channel(p, v)		set_opcr((p), (v), 0x3f, 16)
#define set_opcr_data_rate(p, v)	set_opcr((p), (v), 0x3, 14)
#define set_opcr_overhead_id(p, v)	set_opcr((p), (v), 0xf, 10)

int cmp_establish_pp_connection(struct firedtv *fdtv, int plug, int channel)
{
	__be32 old_opcr, opcr[2];
	u64 opcr_address = CMP_OUTPUT_PLUG_CONTROL_REG_0 + (plug << 2);
	int attempts = 0;
	int ret;

	ret = cmp_read(fdtv, opcr_address, opcr);
	if (ret < 0)
		return ret;

repeat:
	if (!get_opcr_online(*opcr)) {
		dev_err(fdtv->device, "CMP: output offline\n");
		return -EBUSY;
	}

	old_opcr = *opcr;

	if (get_opcr_p2p_connections(*opcr)) {
		if (get_opcr_channel(*opcr) != channel) {
			dev_err(fdtv->device, "CMP: cannot change channel\n");
			return -EBUSY;
		}
		dev_info(fdtv->device, "CMP: overlaying connection\n");

		/* We don't allocate isochronous resources. */
	} else {
		set_opcr_channel(opcr, channel);
		set_opcr_data_rate(opcr, 2); /* S400 */

		/* FIXME: this is for the worst case - optimize */
		set_opcr_overhead_id(opcr, 0);

		/*
		 * FIXME: allocate isochronous channel and bandwidth at IRM
		 * fdtv->backend->alloc_resources(fdtv, channels_mask, bw);
		 */
	}

	set_opcr_p2p_connections(opcr, get_opcr_p2p_connections(*opcr) + 1);

	opcr[1] = *opcr;
	opcr[0] = old_opcr;

	ret = cmp_lock(fdtv, opcr_address, opcr);
	if (ret < 0)
		return ret;

	if (old_opcr != *opcr) {
		/*
		 * FIXME: if old_opcr.P2P_Connections > 0,
		 * deallocate isochronous channel and bandwidth at IRM
		 * if (...)
		 *	fdtv->backend->dealloc_resources(fdtv, channel, bw);
		 */

		if (++attempts < 6) /* arbitrary limit */
			goto repeat;
		return -EBUSY;
	}

	return 0;
}

void cmp_break_pp_connection(struct firedtv *fdtv, int plug, int channel)
{
	__be32 old_opcr, opcr[2];
	u64 opcr_address = CMP_OUTPUT_PLUG_CONTROL_REG_0 + (plug << 2);
	int attempts = 0;

	if (cmp_read(fdtv, opcr_address, opcr) < 0)
		return;

repeat:
	if (!get_opcr_online(*opcr) || !get_opcr_p2p_connections(*opcr) ||
	    get_opcr_channel(*opcr) != channel) {
		dev_err(fdtv->device, "CMP: no connection to break\n");
		return;
	}

	old_opcr = *opcr;
	set_opcr_p2p_connections(opcr, get_opcr_p2p_connections(*opcr) - 1);

	opcr[1] = *opcr;
	opcr[0] = old_opcr;

	if (cmp_lock(fdtv, opcr_address, opcr) < 0)
		return;

	if (old_opcr != *opcr) {
		/*
		 * FIXME: if old_opcr.P2P_Connections == 1, i.e. we were last
		 * owner, deallocate isochronous channel and bandwidth at IRM
		 * if (...)
		 *	fdtv->backend->dealloc_resources(fdtv, channel, bw);
		 */

		if (++attempts < 6) /* arbitrary limit */
			goto repeat;
	}
}