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Message-ID: <Pine.LNX.4.64.0801241014240.27491@linux121>
Date:	Thu, 24 Jan 2008 10:16:42 +0530 (IST)
From:	Poonam_Aggrwal-b10812 <b10812@...escale.com>
To:	kumar.gala@...escale.com, akpm@...ux-foundation.org,
	linux-kernel@...r.kernel.org, netdev@...r.kernel.org,
	rubini@...ion.unipv.it, linuxppc-dev@...abs.org
cc:	michael.barkowski@...escale.com, kim.phillips@...escale.com,
	ashish.kalra@...escale.com, timur@...escale.com,
	rich.cutler@...escale.com
Subject: [PATCH] UCC TDM driver for QE based MPC83xx platforms.


From: Poonam Agarwal-b10812 <b10812@...escale.com>

The UCC TDM driver basically multiplexes and demultiplexes data from
different channels. It can interface with for example SLIC kind of devices
to receive TDM data  demultiplex it and send to upper modules. At the
transmit end it receives data for different channels multiplexes it and
sends them on the TDM channel. It internally uses TSA( Time Slot Assigner)
which does multiplexing and demultiplexing, UCC to perform SDMA between
host buffers and the TSA, CMX to connect TSA to UCC.

It can be used by a kernel module which can call tdm_register_client to
get access to a TDM device.

The driver is right now a misc driver with no subsystem as such.
There can be a platform independent TDM layer which is planned to be
done after this. TDM bus sort of thing.

The dts file keeps a track of the TDM devices present on the board.
Depending on them the TDM driver initializes those many driver instances
while coming up.

The driver on the upper level can plug to more than one tdm clients
depending on the availablity of TDM devices. At every new request of a TDM
client to bind with a TDM device, a free driver instance is allocated to 
the client.

The interface can be described as follows.

tdm_register_client(struct tdm_client *)
        This API returns a pointer to the structure tdm_client which is of
type
       struct tdm_client {
                u32 client_id;
                u32 (*tdm_read)(u32 client_id, short chn_id, short
*pcm_buffer, short len);
                u32 (*tdm_write)(u32 client_id, short chn_id, short
*pcm_buffer, short len);
                wait_queue_head_t *wakeup_event;
        }

It consists of:
   - client_id: It is basically to identify the particular TDM
device/driver instance.
   - tdm_read: It is a function pointer returned by the TDM driver to be
used to read TDM data from a particular TDM channel.
   - tdm_write: It is a function pointer returned by the TDM driver to be
used to write TDM data to a particular TDM channel.
   - wakeup_event: It is address of a wait_queue event on which the client
keeps on sleeping, and the TDM driver wakes it up periodically. The driver 
is configured to
wake up the client after every 10ms.

Once the TDM client gets registered to a TDM driver instance and a TDM
device, it interfaces with the driver using tdm_read, tdm_write and 
wakeup_event.

This driver will run on MPC8323E-RDB platforms.

Signed-off-by: Poonam Aggrwal <b10812@...escale.com>
Signed-off-by: Ashish Kalra <ashish.kalra@...escale.com>
Signed-off-by: Kim Phillips <Kim.Phillips@...escale.com>
Signed-off-by: Michael Barkowski <michael.barkowski@...escale.com>

---
 drivers/misc/Kconfig   |   14 +
 drivers/misc/Makefile  |    1 +
 drivers/misc/ucc_tdm.c | 1000 ++++++++++++++++++++++++++++++++++++++++++++++++
 drivers/misc/ucc_tdm.h |  221 +++++++++++
 4 files changed, 1236 insertions(+), 0 deletions(-)
 create mode 100644 drivers/misc/ucc_tdm.c
 create mode 100644 drivers/misc/ucc_tdm.h

diff --git a/drivers/misc/Kconfig b/drivers/misc/Kconfig
index b5e67c0..628b14b 100644
--- a/drivers/misc/Kconfig
+++ b/drivers/misc/Kconfig
@@ -232,4 +232,18 @@ config ATMEL_SSC
 
 	  If unsure, say N.
 
+config UCC_TDM
+	bool "Freescale UCC  TDM Driver"
+	depends on QUICC_ENGINE && UCC_FAST
+	default n
+	---help---
+	  The TDM driver is for UCC based TDM devices for example, TDM device on
+	  MPC832x RDB. Select it to run PowerVoIP on MPC832x RDB board.
+	  The TDM driver can interface with SLIC kind of devices to transmit
+	  and receive TDM samples. The TDM driver receives Time Division
+	  multiplexed samples(for different channels) from the SLIC device,
+	  demutiplexes them and sends them to the upper layers. At the transmit
+	  end the TDM drivers receives samples for different channels, it
+	  multiplexes them and sends them to the SLIC device.
+
 endif # MISC_DEVICES
diff --git a/drivers/misc/Makefile b/drivers/misc/Makefile
index 87f2685..6f0c49d 100644
--- a/drivers/misc/Makefile
+++ b/drivers/misc/Makefile
@@ -17,3 +17,4 @@ obj-$(CONFIG_SONY_LAPTOP)	+= sony-laptop.o
 obj-$(CONFIG_THINKPAD_ACPI)	+= thinkpad_acpi.o
 obj-$(CONFIG_FUJITSU_LAPTOP)	+= fujitsu-laptop.o
 obj-$(CONFIG_EEPROM_93CX6)	+= eeprom_93cx6.o
+obj-$(CONFIG_UCC_TDM)		+= ucc_tdm.o
diff --git a/drivers/misc/ucc_tdm.c b/drivers/misc/ucc_tdm.c
new file mode 100644
index 0000000..98e7c72
--- /dev/null
+++ b/drivers/misc/ucc_tdm.c
@@ -0,0 +1,1000 @@
+/*
+ * drivers/misc/ucc_tdm.c
+ *
+ * UCC Based Linux TDM Driver
+ * This driver is designed to support UCC based TDM for PowerPC processors.
+ * This driver can interface with SLIC device to run VOIP kind of
+ * applications.
+ *
+ * Author: Ashish Kalra & Poonam Aggrwal
+ *
+ * Copyright (c) 2007 Freescale Semiconductor, Inc.
+ *
+ * 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/autoconf.h>
+#include <linux/module.h>
+#include <linux/sched.h>
+#include <linux/kernel.h>
+#include <linux/slab.h>
+#include <linux/errno.h>
+#include <linux/types.h>
+#include <linux/interrupt.h>
+#include <linux/time.h>
+#include <linux/skbuff.h>
+#include <linux/proc_fs.h>
+#include <linux/delay.h>
+#include <linux/dma-mapping.h>
+#include <linux/string.h>
+#include <linux/irq.h>
+#include <linux/of_platform.h>
+#include <linux/io.h>
+#include <linux/wait.h>
+#include <linux/timer.h>
+
+#include <asm/immap_qe.h>
+#include <asm/qe.h>
+#include <asm/ucc.h>
+#include <asm/ucc_fast.h>
+#include <asm/ucc_slow.h>
+
+#include "ucc_tdm.h"
+#define DRV_DESC "Freescale QE UCC TDM Driver"
+#define DRV_NAME "ucc_tdm"
+
+
+/*
+ * define the following #define if snooping or hardware-based cache coherency
+ * is disabled on the UCC transparent controller.This flag enables
+ * software-based cache-coherency support by explicitly flushing data cache
+ * contents after setting up the TDM output buffer(s) and invalidating the
+ * data cache contents before the TDM input buffer(s) are read.
+ */
+#undef UCC_CACHE_SNOOPING_DISABLED
+
+#define MAX_NUM_TDM_DEVICES 8
+
+static struct tdm_ctrl *tdm_ctrl[MAX_NUM_TDM_DEVICES];
+
+static int num_tdm_devices;
+static int num_tdm_clients;
+
+static struct ucc_tdm_info utdm_primary_info = {
+	.uf_info = {
+		.tsa = 1,
+		.cdp = 1,
+		.cds = 1,
+		.ctsp = 1,
+		.ctss = 1,
+		.revd = 1,
+		.urfs = 0x128,
+		.utfs = 0x128,
+		.utfet = 0,
+		.utftt = 0x128,
+		.ufpt = 256,
+		.ttx_trx = UCC_FAST_GUMR_TRANSPARENT_TTX_TRX_TRANSPARENT,
+		.tenc = UCC_FAST_TX_ENCODING_NRZ,
+		.renc = UCC_FAST_RX_ENCODING_NRZ,
+		.tcrc = UCC_FAST_16_BIT_CRC,
+		.synl = UCC_FAST_SYNC_LEN_NOT_USED,
+	},
+	.ucc_busy = 0,
+};
+
+static struct ucc_tdm_info utdm_info[8];
+
+static void dump_siram(struct tdm_ctrl *tdm_c)
+{
+#ifdef DEBUG
+	int i;
+	u16 phy_num_ts;
+
+	phy_num_ts = tdm_c->physical_num_ts;
+
+	pr_debug("SI TxRAM dump\n");
+	/* each slot entry in SI RAM is of 2 bytes */
+	for (i = 0; i < phy_num_ts * 2; i++)
+		pr_debug("%x ", in_8(&qe_immr->sir.tx[i]));
+	pr_debug("\nSI RxRAM dump\n");
+	for (i = 0; i < phy_num_ts * 2; i++)
+		pr_debug("%x ", in_8(&qe_immr->sir.rx[i]));
+	pr_debug("\n");
+#endif
+}
+
+static void dump_ucc(struct tdm_ctrl *tdm_c)
+{
+#ifdef DEBUG
+	struct ucc_transparent_pram *ucc_pram;
+
+	ucc_pram = tdm_c->ucc_pram;
+
+	pr_debug("%s Dumping UCC Registers\n", __FUNCTION__);
+	ucc_fast_dump_regs(tdm_c->uf_private);
+	pr_debug("%s Dumping UCC Parameter RAM\n", __FUNCTION__);
+	pr_debug("rbase = 0x%x\n", in_be32(&ucc_pram->rbase));
+	pr_debug("rbptr = 0x%x\n", in_be32(&ucc_pram->rbptr));
+	pr_debug("mrblr = 0x%x\n", in_be16(&ucc_pram->mrblr));
+	pr_debug("rbdlen = 0x%x\n", in_be16(&ucc_pram->rbdlen));
+	pr_debug("rbdstat = 0x%x\n", in_be16(&ucc_pram->rbdstat));
+	pr_debug("rstate = 0x%x\n", in_be32(&ucc_pram->rstate));
+	pr_debug("rdptr = 0x%x\n", in_be32(&ucc_pram->rdptr));
+	pr_debug("tbase = 0x%x\n", in_be32(&ucc_pram->tbase));
+	pr_debug("tbptr = 0x%x\n", in_be32(&ucc_pram->tbptr));
+	pr_debug("tbdlen = 0x%x\n", in_be16(&ucc_pram->tbdlen));
+	pr_debug("tbdstat = 0x%x\n", in_be16(&ucc_pram->tbdstat));
+	pr_debug("tstate = 0x%x\n", in_be32(&ucc_pram->tstate));
+	pr_debug("tdptr = 0x%x\n", in_be32(&ucc_pram->tdptr));
+#endif
+}
+
+/*
+ * For use when a framing bit is not present
+ * Program current-route SI ram
+ * Set SIxRAM TDMx
+ * Entries must be in units of 8.
+ * SIR_UCC -> Channel Select
+ * SIR_CNT -> Number of bits or bytes
+ * SIR_BYTE -> Byte or Bit resolution
+ * SIR_LAST -> Indicates last entry in SIxRAM
+ * SIR_IDLE -> The Tx data pin is Tri-stated and the Rx data pin is
+ * 		ignored
+ */
+static void set_siram(struct tdm_ctrl *tdm_c, enum comm_dir dir)
+{
+	const u16 *mask;
+	u16 temp_mask = 1;
+	u16 siram_code = 0;
+	u32 i, j, k;
+	u32 ucc;
+	u32 phy_num_ts;
+
+	phy_num_ts = tdm_c->physical_num_ts;
+	ucc = tdm_c->ut_info->uf_info.ucc_num;
+
+	if (dir == COMM_DIR_RX)
+		mask = tdm_c->rx_mask;
+	else
+		mask = tdm_c->tx_mask;
+	k = 0;
+	j = 0;
+	for (i = 0; i < phy_num_ts; i++) {
+		if ((mask[k] & temp_mask) == temp_mask)
+			siram_code = SIR_UCC(ucc) | SIR_CNT(0) | SIR_BYTE;
+		else
+			siram_code = SIR_IDLE | SIR_CNT(0) | SIR_BYTE;
+		if (dir == COMM_DIR_RX)
+			out_be16((u16 *)&qe_immr->sir.rx[i * 2], siram_code);
+		else
+			out_be16((u16 *)&qe_immr->sir.tx[i * 2], siram_code);
+		temp_mask = temp_mask << 1;
+		j++;
+		if (j >= 16) {
+			j = 0;
+			temp_mask = 0x0001;
+			k++;
+		}
+	}
+	siram_code = siram_code | SIR_LAST;
+
+	if (dir == COMM_DIR_RX)
+		out_be16((u16 *)&qe_immr->sir.rx[(phy_num_ts - 1) * 2],
+								siram_code);
+	else
+		out_be16((u16 *)&qe_immr->sir.tx[(phy_num_ts - 1) * 2],
+								siram_code);
+}
+
+static void config_si(struct tdm_ctrl *tdm_c)
+{
+	u8 rxsyncdelay, txsyncdelay, tdm_port;
+	u16 sixmr_val = 0;
+	u32 tdma_mode_off;
+	u16 *si1_tdm_mode_reg;
+
+	tdm_port = tdm_c->tdm_port;
+
+	set_siram(tdm_c, COMM_DIR_RX);
+
+	set_siram(tdm_c, COMM_DIR_TX);
+
+	rxsyncdelay = tdm_c->cfg_ctrl.rx_fr_sync_delay;
+	txsyncdelay = tdm_c->cfg_ctrl.tx_fr_sync_delay;
+	if (tdm_c->cfg_ctrl.com_pin)
+		sixmr_val |= SIMODE_CRT;
+	if (tdm_c->cfg_ctrl.fr_sync_level == 1)
+		sixmr_val |= SIMODE_SL;
+	if (tdm_c->cfg_ctrl.clk_edge == 1)
+		sixmr_val |= SIMODE_CE;
+	if (tdm_c->cfg_ctrl.fr_sync_edge == 1)
+		sixmr_val |= SIMODE_FE;
+	sixmr_val |= (SIMODE_TFSD(txsyncdelay) | SIMODE_RFSD(rxsyncdelay));
+
+	tdma_mode_off = SI_TDM_MODE_REGISTER_OFFSET * tdm_c->tdm_port;
+
+	si1_tdm_mode_reg = (u8 *)&qe_immr->si1 + tdma_mode_off;
+	out_be16(si1_tdm_mode_reg, sixmr_val);
+
+	dump_siram(tdm_c);
+}
+
+static int tdm_init(struct tdm_ctrl *tdm_c)
+{
+	u32 tdm_port, ucc, act_num_ts;
+	int ret, i, err;
+	u32 cecr_subblock;
+	u32 pram_offset;
+	u32 rxbdt_offset;
+	u32 txbdt_offset;
+	u32 rx_ucode_buf_offset, tx_ucode_buf_offset;
+	u16 bd_status, bd_len;
+	enum qe_clock clock;
+	struct qe_bd __iomem *rx_bd, *tx_bd;
+
+	tdm_port = tdm_c->tdm_port;
+	ucc = tdm_c->ut_info->uf_info.ucc_num;
+	act_num_ts = tdm_c->cfg_ctrl.active_num_ts;
+
+	/*
+	 * TDM Tx and Rx CLKs = 2048 KHz.
+	 */
+	if (strstr(tdm_c->ut_info->uf_info.tdm_tx_clk, "BRG")) {
+		clock = qe_clock_source(tdm_c->ut_info->uf_info.tdm_tx_clk);
+		err = qe_setbrg(clock, 2048000, 1);
+		if (err < 0) {
+			printk(KERN_ERR "%s: Failed to set %s\n", __FUNCTION__,
+				tdm_c->ut_info->uf_info.tdm_tx_clk);
+			return err;
+		}
+	}
+	if (strstr(tdm_c->ut_info->uf_info.tdm_rx_clk, "BRG")) {
+		clock = qe_clock_source(tdm_c->ut_info->uf_info.tdm_rx_clk);
+		err = qe_setbrg(clock, 2048000, 1);
+		if (err < 0) {
+			printk(KERN_ERR "%s: Failed to set %s\n", __FUNCTION__,
+				tdm_c->ut_info->uf_info.tdm_rx_clk);
+			return err;
+		}
+	}
+	/*
+	 * TDM FSyncs = 4 KHz.
+	 */
+	if (strstr(tdm_c->ut_info->uf_info.tdm_tx_sync, "BRG")) {
+		clock = qe_clock_source(tdm_c->ut_info->uf_info.tdm_tx_sync);
+		err = qe_setbrg(clock, 4000, 1);
+		if (err < 0) {
+			printk(KERN_ERR "%s: Failed to set %s\n", __FUNCTION__,
+				tdm_c->ut_info->uf_info.tdm_tx_sync);
+			return err;
+		}
+	}
+	if (strstr(tdm_c->ut_info->uf_info.tdm_rx_sync, "BRG")) {
+		clock = qe_clock_source(tdm_c->ut_info->uf_info.tdm_rx_sync);
+		err = qe_setbrg(clock, 4000, 1);
+		if (err < 0) {
+			printk(KERN_ERR "%s: Failed to set %s\n", __FUNCTION__,
+				tdm_c->ut_info->uf_info.tdm_rx_sync);
+			return err;
+		}
+	}
+
+	tdm_c->ut_info->uf_info.uccm_mask = (u32)
+			((UCC_TRANS_UCCE_RXB | UCC_TRANS_UCCE_BSY) << 16);
+
+	if (ucc_fast_init(&(tdm_c->ut_info->uf_info), &tdm_c->uf_private)) {
+		printk(KERN_ERR "%s: Failed to init uccf\n", __FUNCTION__);
+		return -ENOMEM;
+	}
+
+	ucc_fast_disable(tdm_c->uf_private, COMM_DIR_RX | COMM_DIR_TX);
+
+	/* Write to QE CECR, UCCx channel to Stop Transmission */
+	cecr_subblock = ucc_fast_get_qe_cr_subblock(ucc);
+	qe_issue_cmd(QE_STOP_TX, cecr_subblock,
+		(u8) QE_CR_PROTOCOL_UNSPECIFIED, 0);
+
+	pram_offset = qe_muram_alloc(UCC_TRANSPARENT_PRAM_SIZE,
+					ALIGNMENT_OF_UCC_SLOW_PRAM);
+	if (IS_ERR_VALUE(pram_offset)) {
+		printk(KERN_ERR "%s: Cannot allocate MURAM memory for"
+			" transparent UCC\n", __FUNCTION__);
+		ret = -ENOMEM;
+		goto pram_alloc_error;
+	}
+
+	cecr_subblock = ucc_fast_get_qe_cr_subblock(ucc);
+	qe_issue_cmd(QE_ASSIGN_PAGE_TO_DEVICE, cecr_subblock,
+			QE_CR_PROTOCOL_UNSPECIFIED, pram_offset);
+
+	tdm_c->ucc_pram = qe_muram_addr(pram_offset);
+	tdm_c->ucc_pram_offset = pram_offset;
+
+	/*
+	 * zero-out pram, this will also ensure RSTATE, TSTATE are cleared, also
+	 * DISFC & CRCEC counters will be initialized.
+	 */
+	memset(tdm_c->ucc_pram, 0, sizeof(struct ucc_transparent_pram));
+
+	/* rbase, tbase alignment is 8. */
+	rxbdt_offset = qe_muram_alloc(NR_BUFS * sizeof(struct qe_bd),
+					QE_ALIGNMENT_OF_BD);
+	if (IS_ERR_VALUE(rxbdt_offset)) {
+		printk(KERN_ERR "%s: Cannot allocate MURAM memory for RxBDs\n",
+				__FUNCTION__);
+		ret = -ENOMEM;
+		goto rxbd_alloc_error;
+	}
+	txbdt_offset = qe_muram_alloc(NR_BUFS * sizeof(struct qe_bd),
+				QE_ALIGNMENT_OF_BD);
+	if (IS_ERR_VALUE(txbdt_offset)) {
+		printk(KERN_ERR "%s: Cannot allocate MURAM memory for TxBDs\n",
+				__FUNCTION__);
+		ret = -ENOMEM;
+		goto txbd_alloc_error;
+	}
+	tdm_c->tx_bd = qe_muram_addr(txbdt_offset);
+	tdm_c->rx_bd = qe_muram_addr(rxbdt_offset);
+
+	tdm_c->tx_bd_offset = txbdt_offset;
+	tdm_c->rx_bd_offset = rxbdt_offset;
+
+	rx_bd = tdm_c->rx_bd;
+	tx_bd = tdm_c->tx_bd;
+
+	out_be32(&tdm_c->ucc_pram->rbase, (u32) immrbar_virt_to_phys(rx_bd));
+	out_be32(&tdm_c->ucc_pram->tbase, (u32) immrbar_virt_to_phys(tx_bd));
+
+	for (i = 0; i < NR_BUFS - 1; i++) {
+		bd_status = (u16) ((R_E | R_CM | R_I) >> 16);
+		bd_len = 0;
+		out_be16(&rx_bd->length, bd_len);
+		out_be16(&rx_bd->status, bd_status);
+		out_be32(&rx_bd->buf,
+			 tdm_c->dma_input_addr + i * SAMPLE_DEPTH * act_num_ts);
+		rx_bd += 1;
+
+		bd_status = (u16) ((T_R | T_CM) >> 16);
+		bd_len =  SAMPLE_DEPTH * act_num_ts;
+		out_be16(&tx_bd->length, bd_len);
+		out_be16(&tx_bd->status, bd_status);
+		out_be32(&tx_bd->buf,
+			tdm_c->dma_output_addr + i * SAMPLE_DEPTH * act_num_ts);
+		tx_bd += 1;
+	}
+
+	bd_status = (u16) ((R_E | R_CM | R_I | R_W) >> 16);
+	bd_len = 0;
+	out_be16(&rx_bd->length, bd_len);
+	out_be16(&rx_bd->status, bd_status);
+	out_be32(&rx_bd->buf,
+		 tdm_c->dma_input_addr + i * SAMPLE_DEPTH * act_num_ts);
+
+	bd_status = (u16) ((T_R | T_CM | T_W) >> 16);
+	bd_len =  SAMPLE_DEPTH * act_num_ts;
+	out_be16(&tx_bd->length, bd_len);
+	out_be16(&tx_bd->status, bd_status);
+	out_be32(&tx_bd->buf,
+		 tdm_c->dma_output_addr + i * SAMPLE_DEPTH * act_num_ts);
+
+	config_si(tdm_c);
+
+	setbits32(&qe_immr->ic.qimr, (0x80000000UL >> ucc));
+
+	rx_ucode_buf_offset = qe_muram_alloc(32, 32);
+	if (IS_ERR_VALUE(rx_ucode_buf_offset)) {
+		printk(KERN_ERR "%s: Cannot allocate MURAM mem for Rx"
+			 " ucode buf\n", __FUNCTION__);
+		ret = -ENOMEM;
+		goto rxucode_buf_alloc_error;
+	}
+
+	tx_ucode_buf_offset = qe_muram_alloc(32, 32);
+	if (IS_ERR_VALUE(tx_ucode_buf_offset)) {
+		printk(KERN_ERR "%s: Cannot allocate MURAM mem for Tx"
+			 " ucode buf\n", __FUNCTION__);
+		ret = -ENOMEM;
+		goto txucode_buf_alloc_error;
+	}
+	out_be16(&tdm_c->ucc_pram->riptr, (u16) rx_ucode_buf_offset);
+	out_be16(&tdm_c->ucc_pram->tiptr, (u16) tx_ucode_buf_offset);
+
+	tdm_c->rx_ucode_buf_offset = rx_ucode_buf_offset;
+	tdm_c->tx_ucode_buf_offset = tx_ucode_buf_offset;
+
+	/*
+	 * set the receive buffer descriptor maximum size to be
+	 * SAMPLE_DEPTH * number of active RX channels
+	 */
+	out_be16(&tdm_c->ucc_pram->mrblr, (u16) SAMPLE_DEPTH * act_num_ts);
+
+	/*
+	 * enable snooping and BE byte ordering on the UCC pram's
+	 * tstate & rstate registers.
+	 */
+	out_be32(&tdm_c->ucc_pram->tstate, 0x30000000UL);
+	out_be32(&tdm_c->ucc_pram->rstate, 0x30000000UL);
+
+	/*Put UCC transparent controller into serial interface mode.  */
+	out_be32(&tdm_c->uf_regs->upsmr, 0);
+
+	/* Reset TX and RX for UCCx */
+	cecr_subblock = ucc_fast_get_qe_cr_subblock(ucc);
+	qe_issue_cmd(QE_INIT_TX_RX, cecr_subblock,
+			(u8) QE_CR_PROTOCOL_UNSPECIFIED, 0);
+
+	return 0;
+
+txucode_buf_alloc_error:
+	qe_muram_free(rx_ucode_buf_offset);
+rxucode_buf_alloc_error:
+	qe_muram_free(txbdt_offset);
+txbd_alloc_error:
+	qe_muram_free(rxbdt_offset);
+rxbd_alloc_error:
+	qe_muram_free(pram_offset);
+pram_alloc_error:
+	ucc_fast_free(tdm_c->uf_private);
+	return ret;
+}
+
+static void tdm_deinit(struct tdm_ctrl *tdm_c)
+{
+	qe_muram_free(tdm_c->rx_ucode_buf_offset);
+	qe_muram_free(tdm_c->tx_ucode_buf_offset);
+
+	if (tdm_c->rx_bd_offset) {
+		qe_muram_free(tdm_c->rx_bd_offset);
+		tdm_c->rx_bd = NULL;
+		tdm_c->rx_bd_offset = 0;
+	}
+	if (tdm_c->tx_bd_offset) {
+		qe_muram_free(tdm_c->tx_bd_offset);
+		tdm_c->tx_bd = NULL;
+		tdm_c->tx_bd_offset = 0;
+	}
+	if (tdm_c->ucc_pram_offset) {
+		qe_muram_free(tdm_c->ucc_pram_offset);
+		tdm_c->ucc_pram = NULL;
+		tdm_c->ucc_pram_offset = 0;
+	}
+}
+
+
+static irqreturn_t tdm_isr(int irq, void *dev_id)
+{
+	u8 *input_tdm_buffer, *output_tdm_buffer;
+	u32 txb, rxb;
+	u32 ucc;
+	register u32 ucce = 0;
+	struct tdm_ctrl *tdm_c;
+	tdm_c = (struct tdm_ctrl *)dev_id;
+
+	tdm_c->tdm_icnt++;
+	ucc = tdm_c->ut_info->uf_info.ucc_num;
+	input_tdm_buffer = tdm_c->tdm_input_data;
+	output_tdm_buffer = tdm_c->tdm_output_data;
+
+	if (in_be32(tdm_c->uf_private->p_ucce) &
+						(UCC_TRANS_UCCE_BSY << 16)) {
+		out_be32(tdm_c->uf_private->p_ucce,
+					(UCC_TRANS_UCCE_BSY << 16));
+		pr_info("%s: From tdm isr busy interrupt\n",
+			__FUNCTION__);
+		dump_ucc(tdm_c);
+
+		return IRQ_HANDLED;
+	}
+
+	if (tdm_c->tdm_flag == 1) {
+		/* track phases for Rx/Tx */
+		tdm_c->phase_rx += 1;
+		if (tdm_c->phase_rx == MAX_PHASE)
+			tdm_c->phase_rx = 0;
+
+		tdm_c->phase_tx += 1;
+		if (tdm_c->phase_tx == MAX_PHASE)
+			tdm_c->phase_tx = 0;
+
+#ifdef CONFIG_TDM_HW_LB_TSA_SLIC
+		{
+			u32 temp_rx, temp_tx, phase_tx, phase_rx;
+			int i;
+			phase_rx = tdm_c->phase_rx;
+			phase_tx = tdm_c->phase_tx;
+			if (phase_rx == 0)
+				phase_rx = MAX_PHASE;
+			else
+				phase_rx -= 1;
+			if (phase_tx == 0)
+				phase_tx = MAX_PHASE;
+			else
+				phase_tx -= 1;
+			temp_rx = phase_rx * SAMPLE_DEPTH * ACTIVE_CH;
+			temp_tx = phase_tx * SAMPLE_DEPTH * ACTIVE_CH;
+
+			/*check if loopback received data on TS0 is correct. */
+			pr_debug("%s: check if loopback received data on TS0"
+				 " is correct\n", __FUNCTION__);
+			pr_debug("%d,%d ", phase_rx, phase_tx);
+			for (i = 0; i < 8; i++)
+				pr_debug("%1d,%1d ",
+					 input_tdm_buffer[temp_rx + i],
+					 output_tdm_buffer[temp_tx + i]);
+			pr_debug("\n");
+		}
+#endif
+
+		/* schedule BH */
+		wake_up_interruptible(&tdm_c->wakeup_event);
+	} else {
+		if (tdm_c->tdm_icnt == STUTTER_INT_CNT) {
+			txb = in_be32(&tdm_c->ucc_pram->tbptr) -
+				in_be32(&tdm_c->ucc_pram->tbase);
+			rxb = in_be32(&tdm_c->ucc_pram->rbptr) -
+				in_be32(&tdm_c->ucc_pram->rbase);
+			tdm_c->phase_tx = txb / sizeof(struct qe_bd);
+			tdm_c->phase_rx = rxb / sizeof(struct qe_bd);
+
+#ifdef CONFIG_TDM_HW_LB_TSA_SLIC
+			tdm_c->phase_tx = tdm_c->phase_rx;
+#endif
+
+			/* signal "stuttering" period is over */
+			tdm_c->tdm_flag = 1;
+
+			pr_debug("%s: stuttering period is over\n",
+				 __FUNCTION__);
+
+			if (in_be32(tdm_c->uf_private->p_ucce) &
+						 (UCC_TRANS_UCCE_TXE << 16)) {
+				u32 cecr_subblock;
+				out_be32(tdm_c->uf_private->p_ucce,
+						(UCC_TRANS_UCCE_TXE << 16));
+				pr_debug("%s: From tdm isr txe interrupt\n",
+					 __FUNCTION__);
+
+				cecr_subblock =
+					ucc_fast_get_qe_cr_subblock(ucc);
+				qe_issue_cmd(QE_RESTART_TX, cecr_subblock,
+					(u8) QE_CR_PROTOCOL_UNSPECIFIED,
+					0);
+			}
+		}
+	}
+
+	ucce = (in_be32(tdm_c->uf_private->p_ucce)
+			& in_be32(tdm_c->uf_private->p_uccm));
+
+	out_be32(tdm_c->uf_private->p_ucce, ucce);
+
+	return IRQ_HANDLED;
+}
+
+static int tdm_start(struct tdm_ctrl *tdm_c)
+{
+	if (request_irq(tdm_c->ut_info->uf_info.irq, tdm_isr,
+					0, "tdm", tdm_c)) {
+		printk(KERN_ERR "%s: request_irq for tdm_isr failed\n",
+			__FUNCTION__);
+		return -ENODEV;
+	}
+
+	ucc_fast_enable(tdm_c->uf_private, COMM_DIR_RX | COMM_DIR_TX);
+
+	pr_info("%s 16-bit linear pcm mode active with"
+		" slots 0 & 2\n", __FUNCTION__);
+
+	dump_siram(tdm_c);
+	dump_ucc(tdm_c);
+
+	setbits8(&(qe_immr->si1.siglmr1_h), (0x1 << tdm_c->tdm_port));
+	pr_info("%s UCC based TDM enabled\n", __FUNCTION__);
+
+	return 0;
+}
+
+static void tdm_stop(struct tdm_ctrl *tdm_c)
+{
+	u32 port, si;
+	u32 ucc;
+	u32 cecr_subblock;
+
+	port = tdm_c->tdm_port;
+	si = tdm_c->si;
+	ucc = tdm_c->ut_info->uf_info.ucc_num;
+	cecr_subblock = ucc_fast_get_qe_cr_subblock(ucc);
+
+	qe_issue_cmd(QE_GRACEFUL_STOP_TX, cecr_subblock,
+			(u8) QE_CR_PROTOCOL_UNSPECIFIED, 0);
+	qe_issue_cmd(QE_CLOSE_RX_BD, cecr_subblock,
+			(u8) QE_CR_PROTOCOL_UNSPECIFIED, 0);
+
+	clrbits8(&qe_immr->si1.siglmr1_h, (0x1 << port));
+	ucc_fast_disable(tdm_c->uf_private, COMM_DIR_RX);
+	ucc_fast_disable(tdm_c->uf_private, COMM_DIR_TX);
+	free_irq(tdm_c->ut_info->uf_info.irq, tdm_c);
+}
+
+
+static void config_tdm(struct tdm_ctrl *tdm_c)
+{
+	u32 i, j, k;
+
+	j = 0;
+	k = 0;
+
+	/* Set Mask Bits */
+	for (i = 0; i < ACTIVE_CH; i++) {
+		tdm_c->tx_mask[k] |= (1 << j);
+		tdm_c->rx_mask[k] |= (1 << j);
+		j++;
+		if (j >= 16) {
+			j = 0;
+			k++;
+		}
+	}
+	/* physical number of slots in a frame */
+	tdm_c->physical_num_ts = NUM_TS;
+
+	/* common receive and transmit pins */
+	tdm_c->cfg_ctrl.com_pin = 1;
+
+	/* L1R/TSYNC active logic "1" */
+	tdm_c->cfg_ctrl.fr_sync_level = 0;
+
+	/*
+	 * TX data on rising edge of clock
+	 * RX data on falling edge
+	 */
+	tdm_c->cfg_ctrl.clk_edge = 0;
+
+	/* Frame sync sampled on falling edge */
+	tdm_c->cfg_ctrl.fr_sync_edge = 0;
+
+	/* no bit delay */
+	tdm_c->cfg_ctrl.rx_fr_sync_delay = 0;
+
+	/* no bit delay */
+	tdm_c->cfg_ctrl.tx_fr_sync_delay = 0;
+
+#ifndef CONFIG_TDM_HW_LB_TSA_SLIC
+	if (tdm_c->leg_slic) {
+		/* Need 1 bit delay for Legrity SLIC */
+		tdm_c->cfg_ctrl.rx_fr_sync_delay = 1;
+		tdm_c->cfg_ctrl.tx_fr_sync_delay = 1;
+		pr_info("%s Delay for Legerity!\n", __FUNCTION__);
+	}
+#endif
+
+	tdm_c->cfg_ctrl.active_num_ts = ACTIVE_CH;
+}
+
+static void tdm_read(u32 client_id, short chn_id, short *pcm_buffer,
+								short len)
+{
+	int i;
+	u32 phase_rx;
+	/* point to where to start for the current phase data processing */
+	u32 temp_rx;
+
+	struct tdm_ctrl *tdm_c = tdm_ctrl[client_id];
+
+	u16 *input_tdm_buffer =
+		(u16 *)tdm_c->tdm_input_data;
+
+	phase_rx = tdm_c->phase_rx;
+	if (phase_rx == 0)
+		phase_rx = MAX_PHASE;
+	else
+		phase_rx -= 1;
+
+	temp_rx = phase_rx * SAMPLE_DEPTH * EFF_ACTIVE_CH;
+
+#ifdef UCC_CACHE_SNOOPING_DISABLED
+	flush_dcache_range((size_t) &input_tdm_buffer[temp_rx],
+				(size_t) &input_tdm_buffer[temp_rx +
+						SAMPLE_DEPTH * ACTIVE_CH]);
+#endif
+	for (i = 0; i < len; i++)
+		pcm_buffer[i] =
+			input_tdm_buffer[i * EFF_ACTIVE_CH + temp_rx + chn_id];
+
+}
+
+static void tdm_write(u32 client_id, short chn_id, short *pcm_buffer,
+								short len)
+{
+	int i;
+	int phase_tx;
+	u32 txb;
+	/* point to where to start for the current phase data processing */
+	int temp_tx;
+	struct tdm_ctrl *tdm_c = tdm_ctrl[client_id];
+
+	u16 *output_tdm_buffer;
+	output_tdm_buffer = (u16 *)tdm_c->tdm_output_data;
+	txb = in_be32(&tdm_c->ucc_pram->tbptr) -
+			in_be32(&tdm_c->ucc_pram->tbase);
+	phase_tx = txb / sizeof(struct qe_bd);
+
+	if (phase_tx == 0)
+		phase_tx = MAX_PHASE;
+	else
+		phase_tx -= 1;
+
+	temp_tx = phase_tx * SAMPLE_DEPTH * EFF_ACTIVE_CH;
+
+	for (i = 0; i < len; i++)
+		output_tdm_buffer[i * EFF_ACTIVE_CH + temp_tx + chn_id] =
+			pcm_buffer[i];
+
+#ifdef UCC_CACHE_SNOOPING_DISABLED
+	flush_dcache_range((size_t) &output_tdm_buffer[temp_tx],
+		(size_t) &output_tdm_buffer[temp_tx + SAMPLE_DEPTH *
+							ACTIVE_CH]);
+#endif
+}
+
+
+static int tdm_register_client(struct tdm_client *tdm_client)
+{
+	u32 i;
+	if (num_tdm_clients == num_tdm_devices) {
+		printk(KERN_ERR "all TDM devices busy\n");
+		return -EBUSY;
+	}
+
+	for (i = 0; i < num_tdm_devices; i++) {
+		if (!tdm_ctrl[i]->device_busy) {
+			tdm_ctrl[i]->device_busy = 1;
+			break;
+		}
+	}
+	num_tdm_clients++;
+	tdm_client->client_id = i;
+	tdm_client->tdm_read = tdm_read;
+	tdm_client->tdm_write = tdm_write;
+	tdm_client->wakeup_event =
+			&(tdm_ctrl[i]->wakeup_event);
+	return 0;
+}
+EXPORT_SYMBOL_GPL(tdm_register_client);
+
+static int tdm_deregister_client(struct tdm_client *tdm_client)
+{
+	num_tdm_clients--;
+	tdm_ctrl[tdm_client->client_id]->device_busy = 0;
+	return 0;
+}
+EXPORT_SYMBOL_GPL(tdm_deregister_client);
+
+static int ucc_tdm_probe(struct of_device *ofdev,
+			 const struct of_device_id *match)
+{
+	struct device_node *np = ofdev->node;
+	struct resource res;
+	const unsigned int *prop;
+	u32 ucc_num, device_num, err, ret = 0;
+	struct device_node *np_tmp = NULL;
+	dma_addr_t physaddr;
+	void *tdm_buff;
+	struct ucc_tdm_info *ut_info;
+
+	prop = of_get_property(np, "device-id", NULL);
+	ucc_num = *prop - 1;
+	if ((ucc_num < 0) || (ucc_num > 7))
+		return -ENODEV;
+
+	ut_info = &utdm_info[ucc_num];
+	if (ut_info == NULL) {
+		printk(KERN_ERR "additional data missing\n");
+		return -ENODEV;
+	}
+	if (ut_info->ucc_busy) {
+		printk(KERN_ERR "UCC in use by another TDM driver instance\n");
+		return -EBUSY;
+	}
+	if (num_tdm_devices == MAX_NUM_TDM_DEVICES) {
+		printk(KERN_ERR "All TDM devices already initialized\n");
+		return -ENODEV;
+	}
+
+	ut_info->ucc_busy = 1;
+	tdm_ctrl[num_tdm_devices++] =
+		kzalloc(sizeof(struct tdm_ctrl), GFP_KERNEL);
+	if (!tdm_ctrl[num_tdm_devices - 1]) {
+		printk(KERN_ERR "%s: no memory to allocate for"
+			" tdm control structure\n", __FUNCTION__);
+		num_tdm_devices--;
+		return -ENOMEM;
+	}
+	device_num = num_tdm_devices - 1;
+
+	tdm_ctrl[device_num]->device = &ofdev->dev;
+	tdm_ctrl[device_num]->ut_info = ut_info;
+
+	tdm_ctrl[device_num]->ut_info->uf_info.ucc_num = ucc_num;
+
+	prop = of_get_property(np, "fsl,tdm-num", NULL);
+	if (prop == NULL) {
+		ret = -EINVAL;
+		goto get_property_error;
+	}
+
+	tdm_ctrl[device_num]->tdm_port = *prop - 1;
+
+	if (tdm_ctrl[device_num]->tdm_port > 3) {
+		ret = -EINVAL;
+		goto get_property_error;
+	}
+
+	prop = of_get_property(np, "fsl,si-num", NULL);
+	if (prop == NULL) {
+		ret = -EINVAL;
+		goto get_property_error;
+	}
+
+	tdm_ctrl[device_num]->si = *prop - 1;
+
+	tdm_ctrl[device_num]->ut_info->uf_info.tdm_tx_clk =
+			(char *) of_get_property(np, "fsl,tdm-tx-clk", NULL);
+	if (tdm_ctrl[device_num]->ut_info->uf_info.tdm_tx_clk == NULL) {
+		ret = -EINVAL;
+		goto get_property_error;
+	}
+
+	tdm_ctrl[device_num]->ut_info->uf_info.tdm_rx_clk =
+			(char *) of_get_property(np, "fsl,tdm-rx-clk", NULL);
+	if (tdm_ctrl[device_num]->ut_info->uf_info.tdm_rx_clk == NULL) {
+		ret = -EINVAL;
+		goto get_property_error;
+	}
+
+	tdm_ctrl[device_num]->ut_info->uf_info.tdm_tx_sync =
+			(char *) of_get_property(np, "fsl,tdm-tx-sync", NULL);
+	if (tdm_ctrl[device_num]->ut_info->uf_info.tdm_tx_sync == NULL) {
+		ret = -EINVAL;
+		goto get_property_error;
+	}
+
+	tdm_ctrl[device_num]->ut_info->uf_info.tdm_rx_sync =
+			(char *) of_get_property(np, "fsl,tdm-rx-sync", NULL);
+	if (tdm_ctrl[device_num]->ut_info->uf_info.tdm_rx_sync == NULL) {
+		ret = -EINVAL;
+		goto get_property_error;
+	}
+
+	tdm_ctrl[device_num]->ut_info->uf_info.irq =
+					irq_of_parse_and_map(np, 0);
+	err = of_address_to_resource(np, 0, &res);
+	if (err) {
+		ret = EINVAL;
+		goto get_property_error;
+	}
+	tdm_ctrl[device_num]->ut_info->uf_info.regs = res.start;
+	tdm_ctrl[device_num]->uf_regs = of_iomap(np, 0);
+
+	np_tmp = of_find_compatible_node(np_tmp, "slic", "legerity-slic");
+	if (np_tmp != NULL)
+		tdm_ctrl[device_num]->leg_slic = 1;
+	else
+		tdm_ctrl[device_num]->leg_slic = 0;
+
+	config_tdm(tdm_ctrl[device_num]);
+
+	tdm_buff = dma_alloc_coherent(NULL, 2 * NR_BUFS * SAMPLE_DEPTH *
+				tdm_ctrl[device_num]->cfg_ctrl.active_num_ts,
+					&physaddr, GFP_KERNEL);
+	if (!tdm_buff) {
+		printk(KERN_ERR "ucc-tdm: could not allocate buffer"
+					"descriptors\n");
+		ret = -ENOMEM;
+		goto get_property_error;
+	}
+
+	tdm_ctrl[device_num]->tdm_input_data = tdm_buff;
+	tdm_ctrl[device_num]->dma_input_addr = physaddr;
+
+	tdm_ctrl[device_num]->tdm_output_data = tdm_buff + NR_BUFS *
+		SAMPLE_DEPTH * tdm_ctrl[device_num]->cfg_ctrl.active_num_ts;
+	tdm_ctrl[device_num]->dma_output_addr = physaddr + NR_BUFS *
+		SAMPLE_DEPTH * tdm_ctrl[device_num]->cfg_ctrl.active_num_ts;
+
+	init_waitqueue_head(&(tdm_ctrl[device_num]->wakeup_event));
+
+	ret = tdm_init(tdm_ctrl[device_num]);
+	if (ret != 0)
+		goto tdm_init_error;
+
+	ret = tdm_start(tdm_ctrl[device_num]);
+	if (ret != 0)
+		goto tdm_start_error;
+
+	dev_set_drvdata(&(ofdev->dev), tdm_ctrl[device_num]);
+
+	pr_info("%s UCC based tdm module installed\n", __FUNCTION__);
+	return 0;
+
+tdm_start_error:
+	tdm_deinit(tdm_ctrl[device_num]);
+tdm_init_error:
+	dma_free_coherent(NULL, 2 * NR_BUFS * SAMPLE_DEPTH *
+				tdm_ctrl[device_num]->cfg_ctrl.active_num_ts,
+				tdm_ctrl[device_num]->tdm_input_data,
+				tdm_ctrl[device_num]->dma_input_addr);
+
+get_property_error:
+	kfree(tdm_ctrl[device_num]);
+	return ret;
+}
+
+static int ucc_tdm_remove(struct of_device *ofdev)
+{
+	struct tdm_ctrl *tdm_c;
+	struct ucc_tdm_info *ut_info;
+	u32 ucc_num;
+
+	tdm_c = dev_get_drvdata(&(ofdev->dev));
+	ucc_num = tdm_c->ut_info->uf_info.ucc_num;
+	ut_info = &utdm_info[ucc_num];
+	tdm_stop(tdm_c);
+	tdm_deinit(tdm_c);
+
+	ucc_fast_free(tdm_c->uf_private);
+
+	dma_free_coherent(NULL, 2 * NR_BUFS * SAMPLE_DEPTH *
+				tdm_c->cfg_ctrl.active_num_ts,
+				tdm_c->tdm_input_data,
+				tdm_c->dma_input_addr);
+
+	num_tdm_devices--;
+	kfree(tdm_c);
+
+	ut_info->ucc_busy = 0;
+
+	pr_info("%s UCC based tdm module uninstalled\n", __FUNCTION__);
+	return 0;
+}
+
+static struct of_device_id ucc_tdm_match[] = {
+	{
+	 .type = "tdm",
+	 .compatible = "fsl,ucc-tdm",
+	 }, {},
+};
+
+MODULE_DEVICE_TABLE(of, ucc_tdm_match);
+
+static struct of_platform_driver ucc_tdm_driver = {
+	.name = DRV_NAME,
+	.match_table = ucc_tdm_match,
+	.probe = ucc_tdm_probe,
+	.remove = ucc_tdm_remove,
+};
+
+static int __init ucc_tdm_init(void)
+{
+	u32 i;
+
+	pr_info("ucc_tdm: " DRV_DESC "\n");
+	for (i = 0; i < 8; i++)
+		memcpy(&(utdm_info[i]), &utdm_primary_info,
+			sizeof(utdm_primary_info));
+
+	return of_register_platform_driver(&ucc_tdm_driver);
+}
+
+static void __exit ucc_tdm_exit(void)
+{
+	of_unregister_platform_driver(&ucc_tdm_driver);
+}
+
+module_init(ucc_tdm_init);
+module_exit(ucc_tdm_exit);
+MODULE_AUTHOR("Freescale Semiconductor, Inc");
+MODULE_DESCRIPTION(DRV_DESC);
+MODULE_LICENSE("GPL");
diff --git a/drivers/misc/ucc_tdm.h b/drivers/misc/ucc_tdm.h
new file mode 100644
index 0000000..eaf2848
--- /dev/null
+++ b/drivers/misc/ucc_tdm.h
@@ -0,0 +1,221 @@
+/*
+ * drivers/misc/ucc_tdm.h
+ *
+ * UCC Based Linux TDM Driver
+ * This driver is designed to support UCC based TDM for PowerPC processors.
+ * This driver can interface with SLIC device to run VOIP kind of
+ * applications.
+ *
+ * Author: Ashish Kalra & Poonam Aggrwal
+ *
+ * Copyright (c) 2007 Freescale Semiconductor, Inc.
+ *
+ * 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.
+ */
+
+#ifndef TDM_H
+#define TDM_H
+
+#define NUM_TS 8
+#define ACTIVE_CH 8
+
+/*  SAMPLE_DEPTH is the sample depth is the number of frames before
+ * an interrupt.  Must be a multiple of 4
+ */
+#define SAMPLE_DEPTH 80
+
+/* define the number of Rx interrupts to go by for initial stuttering */
+#define STUTTER_INT_CNT 1
+
+/* BMRx Field Descriptions to specify tstate and rstate in UCC parameter RAM*/
+#define EN_BUS_SNOOPING 0x20
+#define BE_BO		0x10
+
+/* UPSMR Register for Transparent UCC controller Bit definitions*/
+#define NBO	0x00000000	/* Normal Mode 1 bit of data per clock */
+
+/* SI Mode register bit definitions */
+#define NORMAL_OPERATION	0x0000
+#define AUTO_ECHO		0x0400
+#define INTERNAL_LB		0x0800
+#define CONTROL_LB		0x0c00
+#define SIMODE_CRT (0x8000 >> 9)
+#define SIMODE_SL (0x8000 >> 10)
+#define SIMODE_CE (0x8000 >> 11)
+#define SIMODE_FE (0x8000 >> 12)
+#define SIMODE_GM (0x8000 >> 13)
+#define SIMODE_TFSD(val) (val)
+#define SIMODE_RFSD(val) ((val) << 8)
+
+#define SI_TDM_MODE_REGISTER_OFFSET	0
+
+#define R_CM			0x02000000
+#define T_CM			0x02000000
+
+#define SET_RX_SI_RAM(n, val)		\
+		out_be16((u16 *)&qe_immr->sir.rx[(n)*2], (u16)(val))
+
+#define SET_TX_SI_RAM(n, val)		\
+		out_be16((u16 *)&qe_immr->sir.tx[(n)*2], (u16)(val))
+
+/* SI RAM entries */
+#define SIR_LAST 0x0001
+#define SIR_CNT(n) ((n) << 2)
+#define SIR_BYTE 0x0002
+#define SIR_BIT  0x0000
+#define SIR_IDLE  0
+#define SIR_UCC(uccx)	(((uccx+9)) << 5)
+
+/* BRGC Register Bit definitions */
+#define BRGC_RESET	(0x1<<17)
+#define BRGC_EN		(0x1<<16)
+#define BRGC_EXTC_QE	(0x00<<14)
+#define BRGC_EXTC_CLK3	(0x01<<14)
+#define BRGC_EXTC_CLK5	(0x01<<15)
+#define BRGC_EXTC_CLK9	(0x01<<14)
+#define BRGC_EXTC_CLK11	(0x01<<14)
+#define BRGC_EXTC_CLK13	(0x01<<14)
+#define BRGC_EXTC_CLK15	(0x01<<15)
+#define BRGC_ATB	(0x1<<13)
+#define BRGC_DIV16	(0x1)
+
+/* structure representing UCC transparent parameter RAM */
+struct ucc_transparent_pram {
+	__be16 riptr;
+	__be16 tiptr;
+	__be16 res0;
+	__be16 mrblr;
+	__be32 rstate;
+	__be32 rbase;
+	__be16 rbdstat;
+	__be16 rbdlen;
+	__be32 rdptr;
+	__be32 tstate;
+	__be32 tbase;
+	__be16 tbdstat;
+	__be16 tbdlen;
+	__be32 tdptr;
+	__be32 rbptr;
+	__be32 tbptr;
+	__be32 rcrc;
+	__be32 res1;
+	__be32 tcrc;
+	__be32 res2;
+	__be32 res3;
+	__be32 c_mask;
+	__be32 c_pres;
+	__be16 disfc;
+	__be16 crcec;
+	__be32 res4[4];
+	__be16 ts_tmp;
+	__be16 tmp_mb;
+};
+
+#define UCC_TRANSPARENT_PRAM_SIZE	0x100
+
+struct tdm_cfg {
+	u8 com_pin;		/* Common receive and transmit pins
+				 * 0 = separate pins
+				 * 1 = common pins
+				 */
+
+	u8 fr_sync_level;	/* SLx bit Frame Sync Polarity
+				 * 0 = L1R/TSYNC active logic "1"
+				 * 1 = L1R/TSYNC active logic "0"
+				 */
+
+	u8 clk_edge;		/* CEx bit Tx Rx Clock Edge
+				 * 0 = TX data on rising edge of clock
+				 * RX data on falling edge
+				 * 1 = TX data on falling edge of clock
+				 * RX data on rising edge
+				 */
+
+	u8 fr_sync_edge;	/* FEx bit Frame sync edge
+				 * Determine when the sync pulses are sampled
+				 * 0 = Falling edge
+				 * 1 = Rising edge
+				 */
+
+	u8 rx_fr_sync_delay;	/* TFSDx/RFSDx bits Frame Sync Delay
+				 * 00 = no bit delay
+				 * 01 = 1 bit delay
+				 * 10 = 2 bit delay
+				 * 11 = 3 bit delay
+				 */
+
+	u8 tx_fr_sync_delay;	/* TFSDx/RFSDx bits Frame Sync Delay
+				 * 00 = no bit delay
+				 * 01 = 1 bit delay
+				 * 10 = 2 bit delay
+				 * 11 = 3 bit delay
+				 */
+
+	u8 active_num_ts;	/* Number of active time slots in TDM
+				 * assume same active Rx/Tx time slots
+				 */
+};
+
+struct ucc_tdm_info {
+	struct ucc_fast_info uf_info;
+	u32	ucc_busy;
+};
+
+struct tdm_ctrl {
+	u32	device_busy;
+	struct device *device;
+	struct ucc_fast_private *uf_private;
+	struct ucc_tdm_info *ut_info;
+	u32 tdm_port;		/* port for this tdm:TDMA,TDMB,TDMC,TDMD */
+	u32 si;			/* serial interface: 0 or 1 */
+	struct ucc_fast __iomem *uf_regs;	/* UCC Fast registers */
+	u16 rx_mask[8];		/* Active Receive channels LSB is ch0 */
+	u16 tx_mask[8];		/* Active Transmit channels LSB is ch0 */
+	/* Only channels less than the number of FRAME_SIZE are implemented */
+	struct tdm_cfg cfg_ctrl;	/* Signaling controls configuration */
+	u8 *tdm_input_data;     /* buffer used for Rx by the tdm */
+	u8 *tdm_output_data;    /* buffer used for Tx by the tdm */
+
+	dma_addr_t dma_input_addr; /* dma mapped buffer for TDM Rx */
+	dma_addr_t dma_output_addr; /* dma mapped buffer for TDM Tx */
+	u16 physical_num_ts;	/* physical number of timeslots in the tdm
+				   frame */
+	u32 phase_rx;		/* cycles through 0, 1, 2 */
+	u32 phase_tx;		/* cycles through 0, 1, 2 */
+	/*
+	 * the following two variables are for dealing with "stutter" problem
+	 * "stutter" period is about 20 frames or so, varies depending active
+	 * channel num depending on the sample depth, the code should let a
+	 * few Rx interrupts go by
+	 */
+	u32 tdm_icnt;
+	u32 tdm_flag;
+	struct ucc_transparent_pram __iomem *ucc_pram;
+	struct qe_bd __iomem *tx_bd;
+	struct qe_bd __iomem *rx_bd;
+	u32 ucc_pram_offset;
+	u32 tx_bd_offset;
+	u32 rx_bd_offset;
+	u32 rx_ucode_buf_offset;
+	u32 tx_ucode_buf_offset;
+	bool leg_slic;
+	wait_queue_head_t wakeup_event;
+};
+
+struct tdm_client {
+		u32 client_id;
+		void (*tdm_read)(u32 client_id, short chn_id,
+					short *pcm_buffer, short len);
+		void (*tdm_write)(u32 client_id, short chn_id,
+					short *pcm_buffer, short len);
+		wait_queue_head_t *wakeup_event;
+	};
+
+#define MAX_PHASE 1
+#define NR_BUFS	2
+#define EFF_ACTIVE_CH ACTIVE_CH / 2
+
+#endif
-- 
1.5.2.4

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