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|
// SPDX-License-Identifier: GPL-2.0
/*
* QMC driver
*
* Copyright 2022 CS GROUP France
*
* Author: Herve Codina <herve.codina@bootlin.com>
*/
#include <soc/fsl/qe/qmc.h>
#include <linux/dma-mapping.h>
#include <linux/hdlc.h>
#include <linux/interrupt.h>
#include <linux/io.h>
#include <linux/module.h>
#include <linux/of.h>
#include <linux/of_platform.h>
#include <linux/platform_device.h>
#include <linux/slab.h>
#include <soc/fsl/cpm.h>
#include <sysdev/fsl_soc.h>
#include "tsa.h"
/* SCC general mode register high (32 bits) */
#define SCC_GSMRL 0x00
#define SCC_GSMRL_ENR (1 << 5)
#define SCC_GSMRL_ENT (1 << 4)
#define SCC_GSMRL_MODE_QMC (0x0A << 0)
/* SCC general mode register low (32 bits) */
#define SCC_GSMRH 0x04
#define SCC_GSMRH_CTSS (1 << 7)
#define SCC_GSMRH_CDS (1 << 8)
#define SCC_GSMRH_CTSP (1 << 9)
#define SCC_GSMRH_CDP (1 << 10)
/* SCC event register (16 bits) */
#define SCC_SCCE 0x10
#define SCC_SCCE_IQOV (1 << 3)
#define SCC_SCCE_GINT (1 << 2)
#define SCC_SCCE_GUN (1 << 1)
#define SCC_SCCE_GOV (1 << 0)
/* SCC mask register (16 bits) */
#define SCC_SCCM 0x14
/* Multichannel base pointer (32 bits) */
#define QMC_GBL_MCBASE 0x00
/* Multichannel controller state (16 bits) */
#define QMC_GBL_QMCSTATE 0x04
/* Maximum receive buffer length (16 bits) */
#define QMC_GBL_MRBLR 0x06
/* Tx time-slot assignment table pointer (16 bits) */
#define QMC_GBL_TX_S_PTR 0x08
/* Rx pointer (16 bits) */
#define QMC_GBL_RXPTR 0x0A
/* Global receive frame threshold (16 bits) */
#define QMC_GBL_GRFTHR 0x0C
/* Global receive frame count (16 bits) */
#define QMC_GBL_GRFCNT 0x0E
/* Multichannel interrupt base address (32 bits) */
#define QMC_GBL_INTBASE 0x10
/* Multichannel interrupt pointer (32 bits) */
#define QMC_GBL_INTPTR 0x14
/* Rx time-slot assignment table pointer (16 bits) */
#define QMC_GBL_RX_S_PTR 0x18
/* Tx pointer (16 bits) */
#define QMC_GBL_TXPTR 0x1A
/* CRC constant (32 bits) */
#define QMC_GBL_C_MASK32 0x1C
/* Time slot assignment table Rx (32 x 16 bits) */
#define QMC_GBL_TSATRX 0x20
/* Time slot assignment table Tx (32 x 16 bits) */
#define QMC_GBL_TSATTX 0x60
/* CRC constant (16 bits) */
#define QMC_GBL_C_MASK16 0xA0
/* TSA entry (16bit entry in TSATRX and TSATTX) */
#define QMC_TSA_VALID (1 << 15)
#define QMC_TSA_WRAP (1 << 14)
#define QMC_TSA_MASK (0x303F)
#define QMC_TSA_CHANNEL(x) ((x) << 6)
/* Tx buffer descriptor base address (16 bits, offset from MCBASE) */
#define QMC_SPE_TBASE 0x00
/* Channel mode register (16 bits) */
#define QMC_SPE_CHAMR 0x02
#define QMC_SPE_CHAMR_MODE_HDLC (1 << 15)
#define QMC_SPE_CHAMR_MODE_TRANSP ((0 << 15) | (1 << 13))
#define QMC_SPE_CHAMR_ENT (1 << 12)
#define QMC_SPE_CHAMR_POL (1 << 8)
#define QMC_SPE_CHAMR_HDLC_IDLM (1 << 13)
#define QMC_SPE_CHAMR_HDLC_CRC (1 << 7)
#define QMC_SPE_CHAMR_HDLC_NOF (0x0f << 0)
#define QMC_SPE_CHAMR_TRANSP_RD (1 << 14)
#define QMC_SPE_CHAMR_TRANSP_SYNC (1 << 10)
/* Tx internal state (32 bits) */
#define QMC_SPE_TSTATE 0x04
/* Tx buffer descriptor pointer (16 bits) */
#define QMC_SPE_TBPTR 0x0C
/* Zero-insertion state (32 bits) */
#define QMC_SPE_ZISTATE 0x14
/* Channel’s interrupt mask flags (16 bits) */
#define QMC_SPE_INTMSK 0x1C
/* Rx buffer descriptor base address (16 bits, offset from MCBASE) */
#define QMC_SPE_RBASE 0x20
/* HDLC: Maximum frame length register (16 bits) */
#define QMC_SPE_MFLR 0x22
/* TRANSPARENT: Transparent maximum receive length (16 bits) */
#define QMC_SPE_TMRBLR 0x22
/* Rx internal state (32 bits) */
#define QMC_SPE_RSTATE 0x24
/* Rx buffer descriptor pointer (16 bits) */
#define QMC_SPE_RBPTR 0x2C
/* Packs 4 bytes to 1 long word before writing to buffer (32 bits) */
#define QMC_SPE_RPACK 0x30
/* Zero deletion state (32 bits) */
#define QMC_SPE_ZDSTATE 0x34
/* Transparent synchronization (16 bits) */
#define QMC_SPE_TRNSYNC 0x3C
#define QMC_SPE_TRNSYNC_RX(x) ((x) << 8)
#define QMC_SPE_TRNSYNC_TX(x) ((x) << 0)
/* Interrupt related registers bits */
#define QMC_INT_V (1 << 15)
#define QMC_INT_W (1 << 14)
#define QMC_INT_NID (1 << 13)
#define QMC_INT_IDL (1 << 12)
#define QMC_INT_GET_CHANNEL(x) (((x) & 0x0FC0) >> 6)
#define QMC_INT_MRF (1 << 5)
#define QMC_INT_UN (1 << 4)
#define QMC_INT_RXF (1 << 3)
#define QMC_INT_BSY (1 << 2)
#define QMC_INT_TXB (1 << 1)
#define QMC_INT_RXB (1 << 0)
/* BD related registers bits */
#define QMC_BD_RX_E (1 << 15)
#define QMC_BD_RX_W (1 << 13)
#define QMC_BD_RX_I (1 << 12)
#define QMC_BD_RX_L (1 << 11)
#define QMC_BD_RX_F (1 << 10)
#define QMC_BD_RX_CM (1 << 9)
#define QMC_BD_RX_UB (1 << 7)
#define QMC_BD_RX_LG (1 << 5)
#define QMC_BD_RX_NO (1 << 4)
#define QMC_BD_RX_AB (1 << 3)
#define QMC_BD_RX_CR (1 << 2)
#define QMC_BD_TX_R (1 << 15)
#define QMC_BD_TX_W (1 << 13)
#define QMC_BD_TX_I (1 << 12)
#define QMC_BD_TX_L (1 << 11)
#define QMC_BD_TX_TC (1 << 10)
#define QMC_BD_TX_CM (1 << 9)
#define QMC_BD_TX_UB (1 << 7)
#define QMC_BD_TX_PAD (0x0f << 0)
/* Numbers of BDs and interrupt items */
#define QMC_NB_TXBDS 8
#define QMC_NB_RXBDS 8
#define QMC_NB_INTS 128
struct qmc_xfer_desc {
union {
void (*tx_complete)(void *context);
void (*rx_complete)(void *context, size_t length);
};
void *context;
};
struct qmc_chan {
struct list_head list;
unsigned int id;
struct qmc *qmc;
void *__iomem s_param;
enum qmc_mode mode;
u64 tx_ts_mask;
u64 rx_ts_mask;
bool is_reverse_data;
spinlock_t tx_lock;
cbd_t __iomem *txbds;
cbd_t __iomem *txbd_free;
cbd_t __iomem *txbd_done;
struct qmc_xfer_desc tx_desc[QMC_NB_TXBDS];
u64 nb_tx_underrun;
bool is_tx_stopped;
spinlock_t rx_lock;
cbd_t __iomem *rxbds;
cbd_t __iomem *rxbd_free;
cbd_t __iomem *rxbd_done;
struct qmc_xfer_desc rx_desc[QMC_NB_RXBDS];
u64 nb_rx_busy;
int rx_pending;
bool is_rx_halted;
bool is_rx_stopped;
};
struct qmc {
struct device *dev;
struct tsa_serial *tsa_serial;
void *__iomem scc_regs;
void *__iomem scc_pram;
void *__iomem dpram;
u16 scc_pram_offset;
cbd_t __iomem *bd_table;
dma_addr_t bd_dma_addr;
size_t bd_size;
u16 __iomem *int_table;
u16 __iomem *int_curr;
dma_addr_t int_dma_addr;
size_t int_size;
struct list_head chan_head;
struct qmc_chan *chans[64];
};
static inline void qmc_write16(void *__iomem addr, u16 val)
{
iowrite16be(val, addr);
}
static inline u16 qmc_read16(void *__iomem addr)
{
return ioread16be(addr);
}
static inline void qmc_setbits16(void *__iomem addr, u16 set)
{
qmc_write16(addr, qmc_read16(addr) | set);
}
static inline void qmc_clrbits16(void *__iomem addr, u16 clr)
{
qmc_write16(addr, qmc_read16(addr) & ~clr);
}
static inline void qmc_write32(void *__iomem addr, u32 val)
{
iowrite32be(val, addr);
}
static inline u32 qmc_read32(void *__iomem addr)
{
return ioread32be(addr);
}
static inline void qmc_setbits32(void *__iomem addr, u32 set)
{
qmc_write32(addr, qmc_read32(addr) | set);
}
int qmc_chan_get_info(struct qmc_chan *chan, struct qmc_chan_info *info)
{
struct tsa_serial_info tsa_info;
int ret;
/* Retrieve info from the TSA related serial */
ret = tsa_serial_get_info(chan->qmc->tsa_serial, &tsa_info);
if (ret)
return ret;
info->mode = chan->mode;
info->rx_fs_rate = tsa_info.rx_fs_rate;
info->rx_bit_rate = tsa_info.rx_bit_rate;
info->nb_tx_ts = hweight64(chan->tx_ts_mask);
info->tx_fs_rate = tsa_info.tx_fs_rate;
info->tx_bit_rate = tsa_info.tx_bit_rate;
info->nb_rx_ts = hweight64(chan->rx_ts_mask);
return 0;
}
EXPORT_SYMBOL(qmc_chan_get_info);
int qmc_chan_set_param(struct qmc_chan *chan, const struct qmc_chan_param *param)
{
if (param->mode != chan->mode)
return -EINVAL;
switch (param->mode) {
case QMC_HDLC:
if ((param->hdlc.max_rx_buf_size % 4) ||
(param->hdlc.max_rx_buf_size < 8))
return -EINVAL;
qmc_write16(chan->qmc->scc_pram + QMC_GBL_MRBLR,
param->hdlc.max_rx_buf_size - 8);
qmc_write16(chan->s_param + QMC_SPE_MFLR,
param->hdlc.max_rx_frame_size);
if (param->hdlc.is_crc32) {
qmc_setbits16(chan->s_param + QMC_SPE_CHAMR,
QMC_SPE_CHAMR_HDLC_CRC);
} else {
qmc_clrbits16(chan->s_param + QMC_SPE_CHAMR,
QMC_SPE_CHAMR_HDLC_CRC);
}
break;
case QMC_TRANSPARENT:
qmc_write16(chan->s_param + QMC_SPE_TMRBLR,
param->transp.max_rx_buf_size);
break;
default:
return -EINVAL;
}
return 0;
}
EXPORT_SYMBOL(qmc_chan_set_param);
int qmc_chan_write_submit(struct qmc_chan *chan, dma_addr_t addr, size_t length,
void (*complete)(void *context), void *context)
{
struct qmc_xfer_desc *xfer_desc;
unsigned long flags;
cbd_t *__iomem bd;
u16 ctrl;
int ret;
/*
* R bit UB bit
* 0 0 : The BD is free
* 1 1 : The BD is in used, waiting for transfer
* 0 1 : The BD is in used, waiting for completion
* 1 0 : Should not append
*/
spin_lock_irqsave(&chan->tx_lock, flags);
bd = chan->txbd_free;
ctrl = qmc_read16(&bd->cbd_sc);
if (ctrl & (QMC_BD_TX_R | QMC_BD_TX_UB)) {
/* We are full ... */
ret = -EBUSY;
goto end;
}
qmc_write16(&bd->cbd_datlen, length);
qmc_write32(&bd->cbd_bufaddr, addr);
xfer_desc = &chan->tx_desc[bd - chan->txbds];
xfer_desc->tx_complete = complete;
xfer_desc->context = context;
/* Activate the descriptor */
ctrl |= (QMC_BD_TX_R | QMC_BD_TX_UB);
wmb(); /* Be sure to flush the descriptor before control update */
qmc_write16(&bd->cbd_sc, ctrl);
if (!chan->is_tx_stopped)
qmc_setbits16(chan->s_param + QMC_SPE_CHAMR, QMC_SPE_CHAMR_POL);
if (ctrl & QMC_BD_TX_W)
chan->txbd_free = chan->txbds;
else
chan->txbd_free++;
ret = 0;
end:
spin_unlock_irqrestore(&chan->tx_lock, flags);
return ret;
}
EXPORT_SYMBOL(qmc_chan_write_submit);
static void qmc_chan_write_done(struct qmc_chan *chan)
{
struct qmc_xfer_desc *xfer_desc;
void (*complete)(void *context);
unsigned long flags;
void *context;
cbd_t *__iomem bd;
u16 ctrl;
/*
* R bit UB bit
* 0 0 : The BD is free
* 1 1 : The BD is in used, waiting for transfer
* 0 1 : The BD is in used, waiting for completion
* 1 0 : Should not append
*/
spin_lock_irqsave(&chan->tx_lock, flags);
bd = chan->txbd_done;
ctrl = qmc_read16(&bd->cbd_sc);
while (!(ctrl & QMC_BD_TX_R)) {
if (!(ctrl & QMC_BD_TX_UB))
goto end;
xfer_desc = &chan->tx_desc[bd - chan->txbds];
complete = xfer_desc->tx_complete;
context = xfer_desc->context;
xfer_desc->tx_complete = NULL;
xfer_desc->context = NULL;
qmc_write16(&bd->cbd_sc, ctrl & ~QMC_BD_TX_UB);
if (ctrl & QMC_BD_TX_W)
chan->txbd_done = chan->txbds;
else
chan->txbd_done++;
if (complete) {
spin_unlock_irqrestore(&chan->tx_lock, flags);
complete(context);
spin_lock_irqsave(&chan->tx_lock, flags);
}
bd = chan->txbd_done;
ctrl = qmc_read16(&bd->cbd_sc);
}
end:
spin_unlock_irqrestore(&chan->tx_lock, flags);
}
int qmc_chan_read_submit(struct qmc_chan *chan, dma_addr_t addr, size_t length,
void (*complete)(void *context, size_t length), void *context)
{
struct qmc_xfer_desc *xfer_desc;
unsigned long flags;
cbd_t *__iomem bd;
u16 ctrl;
int ret;
/*
* E bit UB bit
* 0 0 : The BD is free
* 1 1 : The BD is in used, waiting for transfer
* 0 1 : The BD is in used, waiting for completion
* 1 0 : Should not append
*/
spin_lock_irqsave(&chan->rx_lock, flags);
bd = chan->rxbd_free;
ctrl = qmc_read16(&bd->cbd_sc);
if (ctrl & (QMC_BD_RX_E | QMC_BD_RX_UB)) {
/* We are full ... */
ret = -EBUSY;
goto end;
}
qmc_write16(&bd->cbd_datlen, 0); /* data length is updated by the QMC */
qmc_write32(&bd->cbd_bufaddr, addr);
xfer_desc = &chan->rx_desc[bd - chan->rxbds];
xfer_desc->rx_complete = complete;
xfer_desc->context = context;
/* Activate the descriptor */
ctrl |= (QMC_BD_RX_E | QMC_BD_RX_UB);
wmb(); /* Be sure to flush data before descriptor activation */
qmc_write16(&bd->cbd_sc, ctrl);
/* Restart receiver if needed */
if (chan->is_rx_halted && !chan->is_rx_stopped) {
/* Restart receiver */
if (chan->mode == QMC_TRANSPARENT)
qmc_write32(chan->s_param + QMC_SPE_ZDSTATE, 0x18000080);
else
qmc_write32(chan->s_param + QMC_SPE_ZDSTATE, 0x00000080);
qmc_write32(chan->s_param + QMC_SPE_RSTATE, 0x31000000);
chan->is_rx_halted = false;
}
chan->rx_pending++;
if (ctrl & QMC_BD_RX_W)
chan->rxbd_free = chan->rxbds;
else
chan->rxbd_free++;
ret = 0;
end:
spin_unlock_irqrestore(&chan->rx_lock, flags);
return ret;
}
EXPORT_SYMBOL(qmc_chan_read_submit);
static void qmc_chan_read_done(struct qmc_chan *chan)
{
void (*complete)(void *context, size_t size);
struct qmc_xfer_desc *xfer_desc;
unsigned long flags;
cbd_t *__iomem bd;
void *context;
u16 datalen;
u16 ctrl;
/*
* E bit UB bit
* 0 0 : The BD is free
* 1 1 : The BD is in used, waiting for transfer
* 0 1 : The BD is in used, waiting for completion
* 1 0 : Should not append
*/
spin_lock_irqsave(&chan->rx_lock, flags);
bd = chan->rxbd_done;
ctrl = qmc_read16(&bd->cbd_sc);
while (!(ctrl & QMC_BD_RX_E)) {
if (!(ctrl & QMC_BD_RX_UB))
goto end;
xfer_desc = &chan->rx_desc[bd - chan->rxbds];
complete = xfer_desc->rx_complete;
context = xfer_desc->context;
xfer_desc->rx_complete = NULL;
xfer_desc->context = NULL;
datalen = qmc_read16(&bd->cbd_datlen);
qmc_write16(&bd->cbd_sc, ctrl & ~QMC_BD_RX_UB);
if (ctrl & QMC_BD_RX_W)
chan->rxbd_done = chan->rxbds;
else
chan->rxbd_done++;
chan->rx_pending--;
if (complete) {
spin_unlock_irqrestore(&chan->rx_lock, flags);
complete(context, datalen);
spin_lock_irqsave(&chan->rx_lock, flags);
}
bd = chan->rxbd_done;
ctrl = qmc_read16(&bd->cbd_sc);
}
end:
spin_unlock_irqrestore(&chan->rx_lock, flags);
}
static int qmc_chan_command(struct qmc_chan *chan, u8 qmc_opcode)
{
return cpm_command(chan->id << 2, (qmc_opcode << 4) | 0x0E);
}
static int qmc_chan_stop_rx(struct qmc_chan *chan)
{
unsigned long flags;
int ret;
spin_lock_irqsave(&chan->rx_lock, flags);
/* Send STOP RECEIVE command */
ret = qmc_chan_command(chan, 0x0);
if (ret) {
dev_err(chan->qmc->dev, "chan %u: Send STOP RECEIVE failed (%d)\n",
chan->id, ret);
goto end;
}
chan->is_rx_stopped = true;
end:
spin_unlock_irqrestore(&chan->rx_lock, flags);
return ret;
}
static int qmc_chan_stop_tx(struct qmc_chan *chan)
{
unsigned long flags;
int ret;
spin_lock_irqsave(&chan->tx_lock, flags);
/* Send STOP TRANSMIT command */
ret = qmc_chan_command(chan, 0x1);
if (ret) {
dev_err(chan->qmc->dev, "chan %u: Send STOP TRANSMIT failed (%d)\n",
chan->id, ret);
goto end;
}
chan->is_tx_stopped = true;
end:
spin_unlock_irqrestore(&chan->tx_lock, flags);
return ret;
}
int qmc_chan_stop(struct qmc_chan *chan, int direction)
{
int ret;
if (direction & QMC_CHAN_READ) {
ret = qmc_chan_stop_rx(chan);
if (ret)
return ret;
}
if (direction & QMC_CHAN_WRITE) {
ret = qmc_chan_stop_tx(chan);
if (ret)
return ret;
}
return 0;
}
EXPORT_SYMBOL(qmc_chan_stop);
static void qmc_chan_start_rx(struct qmc_chan *chan)
{
unsigned long flags;
spin_lock_irqsave(&chan->rx_lock, flags);
/* Restart the receiver */
if (chan->mode == QMC_TRANSPARENT)
qmc_write32(chan->s_param + QMC_SPE_ZDSTATE, 0x18000080);
else
qmc_write32(chan->s_param + QMC_SPE_ZDSTATE, 0x00000080);
qmc_write32(chan->s_param + QMC_SPE_RSTATE, 0x31000000);
chan->is_rx_halted = false;
chan->is_rx_stopped = false;
spin_unlock_irqrestore(&chan->rx_lock, flags);
}
static void qmc_chan_start_tx(struct qmc_chan *chan)
{
unsigned long flags;
spin_lock_irqsave(&chan->tx_lock, flags);
/*
* Enable channel transmitter as it could be disabled if
* qmc_chan_reset() was called.
*/
qmc_setbits16(chan->s_param + QMC_SPE_CHAMR, QMC_SPE_CHAMR_ENT);
/* Set the POL bit in the channel mode register */
qmc_setbits16(chan->s_param + QMC_SPE_CHAMR, QMC_SPE_CHAMR_POL);
chan->is_tx_stopped = false;
spin_unlock_irqrestore(&chan->tx_lock, flags);
}
int qmc_chan_start(struct qmc_chan *chan, int direction)
{
if (direction & QMC_CHAN_READ)
qmc_chan_start_rx(chan);
if (direction & QMC_CHAN_WRITE)
qmc_chan_start_tx(chan);
return 0;
}
EXPORT_SYMBOL(qmc_chan_start);
static void qmc_chan_reset_rx(struct qmc_chan *chan)
{
struct qmc_xfer_desc *xfer_desc;
unsigned long flags;
cbd_t *__iomem bd;
u16 ctrl;
spin_lock_irqsave(&chan->rx_lock, flags);
bd = chan->rxbds;
do {
ctrl = qmc_read16(&bd->cbd_sc);
qmc_write16(&bd->cbd_sc, ctrl & ~(QMC_BD_RX_UB | QMC_BD_RX_E));
xfer_desc = &chan->rx_desc[bd - chan->rxbds];
xfer_desc->rx_complete = NULL;
xfer_desc->context = NULL;
bd++;
} while (!(ctrl & QMC_BD_RX_W));
chan->rxbd_free = chan->rxbds;
chan->rxbd_done = chan->rxbds;
qmc_write16(chan->s_param + QMC_SPE_RBPTR,
qmc_read16(chan->s_param + QMC_SPE_RBASE));
chan->rx_pending = 0;
chan->is_rx_stopped = false;
spin_unlock_irqrestore(&chan->rx_lock, flags);
}
static void qmc_chan_reset_tx(struct qmc_chan *chan)
{
struct qmc_xfer_desc *xfer_desc;
unsigned long flags;
cbd_t *__iomem bd;
u16 ctrl;
spin_lock_irqsave(&chan->tx_lock, flags);
/* Disable transmitter. It will be re-enable on qmc_chan_start() */
qmc_clrbits16(chan->s_param + QMC_SPE_CHAMR, QMC_SPE_CHAMR_ENT);
bd = chan->txbds;
do {
ctrl = qmc_read16(&bd->cbd_sc);
qmc_write16(&bd->cbd_sc, ctrl & ~(QMC_BD_TX_UB | QMC_BD_TX_R));
xfer_desc = &chan->tx_desc[bd - chan->txbds];
xfer_desc->tx_complete = NULL;
xfer_desc->context = NULL;
bd++;
} while (!(ctrl & QMC_BD_TX_W));
chan->txbd_free = chan->txbds;
chan->txbd_done = chan->txbds;
qmc_write16(chan->s_param + QMC_SPE_TBPTR,
qmc_read16(chan->s_param + QMC_SPE_TBASE));
/* Reset TSTATE and ZISTATE to their initial value */
qmc_write32(chan->s_param + QMC_SPE_TSTATE, 0x30000000);
qmc_write32(chan->s_param + QMC_SPE_ZISTATE, 0x00000100);
spin_unlock_irqrestore(&chan->tx_lock, flags);
}
int qmc_chan_reset(struct qmc_chan *chan, int direction)
{
if (direction & QMC_CHAN_READ)
qmc_chan_reset_rx(chan);
if (direction & QMC_CHAN_WRITE)
qmc_chan_reset_tx(chan);
return 0;
}
EXPORT_SYMBOL(qmc_chan_reset);
static int qmc_check_chans(struct qmc *qmc)
{
struct tsa_serial_info info;
bool is_one_table = false;
struct qmc_chan *chan;
u64 tx_ts_mask = 0;
u64 rx_ts_mask = 0;
u64 tx_ts_assigned_mask;
u64 rx_ts_assigned_mask;
int ret;
/* Retrieve info from the TSA related serial */
ret = tsa_serial_get_info(qmc->tsa_serial, &info);
if (ret)
return ret;
if ((info.nb_tx_ts > 64) || (info.nb_rx_ts > 64)) {
dev_err(qmc->dev, "Number of TSA Tx/Rx TS assigned not supported\n");
return -EINVAL;
}
/*
* If more than 32 TS are assigned to this serial, one common table is
* used for Tx and Rx and so masks must be equal for all channels.
*/
if ((info.nb_tx_ts > 32) || (info.nb_rx_ts > 32)) {
if (info.nb_tx_ts != info.nb_rx_ts) {
dev_err(qmc->dev, "Number of TSA Tx/Rx TS assigned are not equal\n");
return -EINVAL;
}
is_one_table = true;
}
tx_ts_assigned_mask = info.nb_tx_ts == 64 ? U64_MAX : (((u64)1) << info.nb_tx_ts) - 1;
rx_ts_assigned_mask = info.nb_rx_ts == 64 ? U64_MAX : (((u64)1) << info.nb_rx_ts) - 1;
list_for_each_entry(chan, &qmc->chan_head, list) {
if (chan->tx_ts_mask > tx_ts_assigned_mask) {
dev_err(qmc->dev, "chan %u uses TSA unassigned Tx TS\n", chan->id);
return -EINVAL;
}
if (tx_ts_mask & chan->tx_ts_mask) {
dev_err(qmc->dev, "chan %u uses an already used Tx TS\n", chan->id);
return -EINVAL;
}
if (chan->rx_ts_mask > rx_ts_assigned_mask) {
dev_err(qmc->dev, "chan %u uses TSA unassigned Rx TS\n", chan->id);
return -EINVAL;
}
if (rx_ts_mask & chan->rx_ts_mask) {
dev_err(qmc->dev, "chan %u uses an already used Rx TS\n", chan->id);
return -EINVAL;
}
if (is_one_table && (chan->tx_ts_mask != chan->rx_ts_mask)) {
dev_err(qmc->dev, "chan %u uses different Rx and Tx TS\n", chan->id);
return -EINVAL;
}
tx_ts_mask |= chan->tx_ts_mask;
rx_ts_mask |= chan->rx_ts_mask;
}
return 0;
}
static unsigned int qmc_nb_chans(struct qmc *qmc)
{
unsigned int count = 0;
struct qmc_chan *chan;
list_for_each_entry(chan, &qmc->chan_head, list)
count++;
return count;
}
static int qmc_of_parse_chans(struct qmc *qmc, struct device_node *np)
{
struct device_node *chan_np;
struct qmc_chan *chan;
const char *mode;
u32 chan_id;
u64 ts_mask;
int ret;
for_each_available_child_of_node(np, chan_np) {
ret = of_property_read_u32(chan_np, "reg", &chan_id);
if (ret) {
dev_err(qmc->dev, "%pOF: failed to read reg\n", chan_np);
of_node_put(chan_np);
return ret;
}
if (chan_id > 63) {
dev_err(qmc->dev, "%pOF: Invalid chan_id\n", chan_np);
of_node_put(chan_np);
return -EINVAL;
}
chan = devm_kzalloc(qmc->dev, sizeof(*chan), GFP_KERNEL);
if (!chan) {
of_node_put(chan_np);
return -ENOMEM;
}
chan->id = chan_id;
spin_lock_init(&chan->rx_lock);
spin_lock_init(&chan->tx_lock);
ret = of_property_read_u64(chan_np, "fsl,tx-ts-mask", &ts_mask);
if (ret) {
dev_err(qmc->dev, "%pOF: failed to read fsl,tx-ts-mask\n",
chan_np);
of_node_put(chan_np);
return ret;
}
chan->tx_ts_mask = ts_mask;
ret = of_property_read_u64(chan_np, "fsl,rx-ts-mask", &ts_mask);
if (ret) {
dev_err(qmc->dev, "%pOF: failed to read fsl,rx-ts-mask\n",
chan_np);
of_node_put(chan_np);
return ret;
}
chan->rx_ts_mask = ts_mask;
mode = "transparent";
ret = of_property_read_string(chan_np, "fsl,operational-mode", &mode);
if (ret && ret != -EINVAL) {
dev_err(qmc->dev, "%pOF: failed to read fsl,operational-mode\n",
chan_np);
of_node_put(chan_np);
return ret;
}
if (!strcmp(mode, "transparent")) {
chan->mode = QMC_TRANSPARENT;
} else if (!strcmp(mode, "hdlc")) {
chan->mode = QMC_HDLC;
} else {
dev_err(qmc->dev, "%pOF: Invalid fsl,operational-mode (%s)\n",
chan_np, mode);
of_node_put(chan_np);
return -EINVAL;
}
chan->is_reverse_data = of_property_read_bool(chan_np,
"fsl,reverse-data");
list_add_tail(&chan->list, &qmc->chan_head);
qmc->chans[chan->id] = chan;
}
return qmc_check_chans(qmc);
}
static int qmc_setup_tsa_64rxtx(struct qmc *qmc, const struct tsa_serial_info *info)
{
struct qmc_chan *chan;
unsigned int i;
u16 val;
/*
* Use a common Tx/Rx 64 entries table.
* Everything was previously checked, Tx and Rx related stuffs are
* identical -> Used Rx related stuff to build the table
*/
/* Invalidate all entries */
for (i = 0; i < 64; i++)
qmc_write16(qmc->scc_pram + QMC_GBL_TSATRX + (i * 2), 0x0000);
/* Set entries based on Rx stuff*/
list_for_each_entry(chan, &qmc->chan_head, list) {
for (i = 0; i < info->nb_rx_ts; i++) {
if (!(chan->rx_ts_mask & (((u64)1) << i)))
continue;
val = QMC_TSA_VALID | QMC_TSA_MASK |
QMC_TSA_CHANNEL(chan->id);
qmc_write16(qmc->scc_pram + QMC_GBL_TSATRX + (i * 2), val);
}
}
/* Set Wrap bit on last entry */
qmc_setbits16(qmc->scc_pram + QMC_GBL_TSATRX + ((info->nb_rx_ts - 1) * 2),
QMC_TSA_WRAP);
/* Init pointers to the table */
val = qmc->scc_pram_offset + QMC_GBL_TSATRX;
qmc_write16(qmc->scc_pram + QMC_GBL_RX_S_PTR, val);
qmc_write16(qmc->scc_pram + QMC_GBL_RXPTR, val);
qmc_write16(qmc->scc_pram + QMC_GBL_TX_S_PTR, val);
qmc_write16(qmc->scc_pram + QMC_GBL_TXPTR, val);
return 0;
}
static int qmc_setup_tsa_32rx_32tx(struct qmc *qmc, const struct tsa_serial_info *info)
{
struct qmc_chan *chan;
unsigned int i;
u16 val;
/*
* Use a Tx 32 entries table and a Rx 32 entries table.
* Everything was previously checked.
*/
/* Invalidate all entries */
for (i = 0; i < 32; i++) {
qmc_write16(qmc->scc_pram + QMC_GBL_TSATRX + (i * 2), 0x0000);
qmc_write16(qmc->scc_pram + QMC_GBL_TSATTX + (i * 2), 0x0000);
}
/* Set entries based on Rx and Tx stuff*/
list_for_each_entry(chan, &qmc->chan_head, list) {
/* Rx part */
for (i = 0; i < info->nb_rx_ts; i++) {
if (!(chan->rx_ts_mask & (((u64)1) << i)))
continue;
val = QMC_TSA_VALID | QMC_TSA_MASK |
QMC_TSA_CHANNEL(chan->id);
qmc_write16(qmc->scc_pram + QMC_GBL_TSATRX + (i * 2), val);
}
/* Tx part */
for (i = 0; i < info->nb_tx_ts; i++) {
if (!(chan->tx_ts_mask & (((u64)1) << i)))
continue;
val = QMC_TSA_VALID | QMC_TSA_MASK |
QMC_TSA_CHANNEL(chan->id);
qmc_write16(qmc->scc_pram + QMC_GBL_TSATTX + (i * 2), val);
}
}
/* Set Wrap bit on last entries */
qmc_setbits16(qmc->scc_pram + QMC_GBL_TSATRX + ((info->nb_rx_ts - 1) * 2),
QMC_TSA_WRAP);
qmc_setbits16(qmc->scc_pram + QMC_GBL_TSATTX + ((info->nb_tx_ts - 1) * 2),
QMC_TSA_WRAP);
/* Init Rx pointers ...*/
val = qmc->scc_pram_offset + QMC_GBL_TSATRX;
qmc_write16(qmc->scc_pram + QMC_GBL_RX_S_PTR, val);
qmc_write16(qmc->scc_pram + QMC_GBL_RXPTR, val);
/* ... and Tx pointers */
val = qmc->scc_pram_offset + QMC_GBL_TSATTX;
qmc_write16(qmc->scc_pram + QMC_GBL_TX_S_PTR, val);
qmc_write16(qmc->scc_pram + QMC_GBL_TXPTR, val);
return 0;
}
static int qmc_setup_tsa(struct qmc *qmc)
{
struct tsa_serial_info info;
int ret;
/* Retrieve info from the TSA related serial */
ret = tsa_serial_get_info(qmc->tsa_serial, &info);
if (ret)
return ret;
/*
* Setup one common 64 entries table or two 32 entries (one for Tx and
* one for Tx) according to assigned TS numbers.
*/
return ((info.nb_tx_ts > 32) || (info.nb_rx_ts > 32)) ?
qmc_setup_tsa_64rxtx(qmc, &info) :
qmc_setup_tsa_32rx_32tx(qmc, &info);
}
static int qmc_setup_chan_trnsync(struct qmc *qmc, struct qmc_chan *chan)
{
struct tsa_serial_info info;
u16 first_rx, last_tx;
u16 trnsync;
int ret;
/* Retrieve info from the TSA related serial */
ret = tsa_serial_get_info(chan->qmc->tsa_serial, &info);
if (ret)
return ret;
/* Find the first Rx TS allocated to the channel */
first_rx = chan->rx_ts_mask ? __ffs64(chan->rx_ts_mask) + 1 : 0;
/* Find the last Tx TS allocated to the channel */
last_tx = fls64(chan->tx_ts_mask);
trnsync = 0;
if (info.nb_rx_ts)
trnsync |= QMC_SPE_TRNSYNC_RX((first_rx % info.nb_rx_ts) * 2);
if (info.nb_tx_ts)
trnsync |= QMC_SPE_TRNSYNC_TX((last_tx % info.nb_tx_ts) * 2);
qmc_write16(chan->s_param + QMC_SPE_TRNSYNC, trnsync);
dev_dbg(qmc->dev, "chan %u: trnsync=0x%04x, rx %u/%u 0x%llx, tx %u/%u 0x%llx\n",
chan->id, trnsync,
first_rx, info.nb_rx_ts, chan->rx_ts_mask,
last_tx, info.nb_tx_ts, chan->tx_ts_mask);
return 0;
}
static int qmc_setup_chan(struct qmc *qmc, struct qmc_chan *chan)
{
unsigned int i;
cbd_t __iomem *bd;
int ret;
u16 val;
chan->qmc = qmc;
/* Set channel specific parameter base address */
chan->s_param = qmc->dpram + (chan->id * 64);
/* 16 bd per channel (8 rx and 8 tx) */
chan->txbds = qmc->bd_table + (chan->id * (QMC_NB_TXBDS + QMC_NB_RXBDS));
chan->rxbds = qmc->bd_table + (chan->id * (QMC_NB_TXBDS + QMC_NB_RXBDS)) + QMC_NB_TXBDS;
chan->txbd_free = chan->txbds;
chan->txbd_done = chan->txbds;
chan->rxbd_free = chan->rxbds;
chan->rxbd_done = chan->rxbds;
/* TBASE and TBPTR*/
val = chan->id * (QMC_NB_TXBDS + QMC_NB_RXBDS) * sizeof(cbd_t);
qmc_write16(chan->s_param + QMC_SPE_TBASE, val);
qmc_write16(chan->s_param + QMC_SPE_TBPTR, val);
/* RBASE and RBPTR*/
val = ((chan->id * (QMC_NB_TXBDS + QMC_NB_RXBDS)) + QMC_NB_TXBDS) * sizeof(cbd_t);
qmc_write16(chan->s_param + QMC_SPE_RBASE, val);
qmc_write16(chan->s_param + QMC_SPE_RBPTR, val);
qmc_write32(chan->s_param + QMC_SPE_TSTATE, 0x30000000);
qmc_write32(chan->s_param + QMC_SPE_RSTATE, 0x31000000);
qmc_write32(chan->s_param + QMC_SPE_ZISTATE, 0x00000100);
if (chan->mode == QMC_TRANSPARENT) {
qmc_write32(chan->s_param + QMC_SPE_ZDSTATE, 0x18000080);
qmc_write16(chan->s_param + QMC_SPE_TMRBLR, 60);
val = QMC_SPE_CHAMR_MODE_TRANSP | QMC_SPE_CHAMR_TRANSP_SYNC;
if (chan->is_reverse_data)
val |= QMC_SPE_CHAMR_TRANSP_RD;
qmc_write16(chan->s_param + QMC_SPE_CHAMR, val);
ret = qmc_setup_chan_trnsync(qmc, chan);
if (ret)
return ret;
} else {
qmc_write32(chan->s_param + QMC_SPE_ZDSTATE, 0x00000080);
qmc_write16(chan->s_param + QMC_SPE_MFLR, 60);
qmc_write16(chan->s_param + QMC_SPE_CHAMR,
QMC_SPE_CHAMR_MODE_HDLC | QMC_SPE_CHAMR_HDLC_IDLM);
}
/* Do not enable interrupts now. They will be enabled later */
qmc_write16(chan->s_param + QMC_SPE_INTMSK, 0x0000);
/* Init Rx BDs and set Wrap bit on last descriptor */
BUILD_BUG_ON(QMC_NB_RXBDS == 0);
val = QMC_BD_RX_I;
for (i = 0; i < QMC_NB_RXBDS; i++) {
bd = chan->rxbds + i;
qmc_write16(&bd->cbd_sc, val);
}
bd = chan->rxbds + QMC_NB_RXBDS - 1;
qmc_write16(&bd->cbd_sc, val | QMC_BD_RX_W);
/* Init Tx BDs and set Wrap bit on last descriptor */
BUILD_BUG_ON(QMC_NB_TXBDS == 0);
val = QMC_BD_TX_I;
if (chan->mode == QMC_HDLC)
val |= QMC_BD_TX_L | QMC_BD_TX_TC;
for (i = 0; i < QMC_NB_TXBDS; i++) {
bd = chan->txbds + i;
qmc_write16(&bd->cbd_sc, val);
}
bd = chan->txbds + QMC_NB_TXBDS - 1;
qmc_write16(&bd->cbd_sc, val | QMC_BD_TX_W);
return 0;
}
static int qmc_setup_chans(struct qmc *qmc)
{
struct qmc_chan *chan;
int ret;
list_for_each_entry(chan, &qmc->chan_head, list) {
ret = qmc_setup_chan(qmc, chan);
if (ret)
return ret;
}
return 0;
}
static int qmc_finalize_chans(struct qmc *qmc)
{
struct qmc_chan *chan;
int ret;
list_for_each_entry(chan, &qmc->chan_head, list) {
/* Unmask channel interrupts */
if (chan->mode == QMC_HDLC) {
qmc_write16(chan->s_param + QMC_SPE_INTMSK,
QMC_INT_NID | QMC_INT_IDL | QMC_INT_MRF |
QMC_INT_UN | QMC_INT_RXF | QMC_INT_BSY |
QMC_INT_TXB | QMC_INT_RXB);
} else {
qmc_write16(chan->s_param + QMC_SPE_INTMSK,
QMC_INT_UN | QMC_INT_BSY |
QMC_INT_TXB | QMC_INT_RXB);
}
/* Forced stop the channel */
ret = qmc_chan_stop(chan, QMC_CHAN_ALL);
if (ret)
return ret;
}
return 0;
}
static int qmc_setup_ints(struct qmc *qmc)
{
unsigned int i;
u16 __iomem *last;
/* Raz all entries */
for (i = 0; i < (qmc->int_size / sizeof(u16)); i++)
qmc_write16(qmc->int_table + i, 0x0000);
/* Set Wrap bit on last entry */
if (qmc->int_size >= sizeof(u16)) {
last = qmc->int_table + (qmc->int_size / sizeof(u16)) - 1;
qmc_write16(last, QMC_INT_W);
}
return 0;
}
static void qmc_irq_gint(struct qmc *qmc)
{
struct qmc_chan *chan;
unsigned int chan_id;
unsigned long flags;
u16 int_entry;
int_entry = qmc_read16(qmc->int_curr);
while (int_entry & QMC_INT_V) {
/* Clear all but the Wrap bit */
qmc_write16(qmc->int_curr, int_entry & QMC_INT_W);
chan_id = QMC_INT_GET_CHANNEL(int_entry);
chan = qmc->chans[chan_id];
if (!chan) {
dev_err(qmc->dev, "interrupt on invalid chan %u\n", chan_id);
goto int_next;
}
if (int_entry & QMC_INT_TXB)
qmc_chan_write_done(chan);
if (int_entry & QMC_INT_UN) {
dev_info(qmc->dev, "intr chan %u, 0x%04x (UN)\n", chan_id,
int_entry);
chan->nb_tx_underrun++;
}
if (int_entry & QMC_INT_BSY) {
dev_info(qmc->dev, "intr chan %u, 0x%04x (BSY)\n", chan_id,
int_entry);
chan->nb_rx_busy++;
/* Restart the receiver if needed */
spin_lock_irqsave(&chan->rx_lock, flags);
if (chan->rx_pending && !chan->is_rx_stopped) {
if (chan->mode == QMC_TRANSPARENT)
qmc_write32(chan->s_param + QMC_SPE_ZDSTATE, 0x18000080);
else
qmc_write32(chan->s_param + QMC_SPE_ZDSTATE, 0x00000080);
qmc_write32(chan->s_param + QMC_SPE_RSTATE, 0x31000000);
chan->is_rx_halted = false;
} else {
chan->is_rx_halted = true;
}
spin_unlock_irqrestore(&chan->rx_lock, flags);
}
if (int_entry & QMC_INT_RXB)
qmc_chan_read_done(chan);
int_next:
if (int_entry & QMC_INT_W)
qmc->int_curr = qmc->int_table;
else
qmc->int_curr++;
int_entry = qmc_read16(qmc->int_curr);
}
}
static irqreturn_t qmc_irq_handler(int irq, void *priv)
{
struct qmc *qmc = (struct qmc *)priv;
u16 scce;
scce = qmc_read16(qmc->scc_regs + SCC_SCCE);
qmc_write16(qmc->scc_regs + SCC_SCCE, scce);
if (unlikely(scce & SCC_SCCE_IQOV))
dev_info(qmc->dev, "IRQ queue overflow\n");
if (unlikely(scce & SCC_SCCE_GUN))
dev_err(qmc->dev, "Global transmitter underrun\n");
if (unlikely(scce & SCC_SCCE_GOV))
dev_err(qmc->dev, "Global receiver overrun\n");
/* normal interrupt */
if (likely(scce & SCC_SCCE_GINT))
qmc_irq_gint(qmc);
return IRQ_HANDLED;
}
static int qmc_probe(struct platform_device *pdev)
{
struct device_node *np = pdev->dev.of_node;
unsigned int nb_chans;
struct resource *res;
struct qmc *qmc;
int irq;
int ret;
qmc = devm_kzalloc(&pdev->dev, sizeof(*qmc), GFP_KERNEL);
if (!qmc)
return -ENOMEM;
qmc->dev = &pdev->dev;
INIT_LIST_HEAD(&qmc->chan_head);
qmc->scc_regs = devm_platform_ioremap_resource_byname(pdev, "scc_regs");
if (IS_ERR(qmc->scc_regs))
return PTR_ERR(qmc->scc_regs);
res = platform_get_resource_byname(pdev, IORESOURCE_MEM, "scc_pram");
if (!res)
return -EINVAL;
qmc->scc_pram_offset = res->start - get_immrbase();
qmc->scc_pram = devm_ioremap_resource(qmc->dev, res);
if (IS_ERR(qmc->scc_pram))
return PTR_ERR(qmc->scc_pram);
qmc->dpram = devm_platform_ioremap_resource_byname(pdev, "dpram");
if (IS_ERR(qmc->dpram))
return PTR_ERR(qmc->dpram);
qmc->tsa_serial = devm_tsa_serial_get_byphandle(qmc->dev, np, "fsl,tsa-serial");
if (IS_ERR(qmc->tsa_serial)) {
return dev_err_probe(qmc->dev, PTR_ERR(qmc->tsa_serial),
"Failed to get TSA serial\n");
}
/* Connect the serial (SCC) to TSA */
ret = tsa_serial_connect(qmc->tsa_serial);
if (ret) {
dev_err(qmc->dev, "Failed to connect TSA serial\n");
return ret;
}
/* Parse channels informationss */
ret = qmc_of_parse_chans(qmc, np);
if (ret)
goto err_tsa_serial_disconnect;
nb_chans = qmc_nb_chans(qmc);
/* Init GMSR_H and GMSR_L registers */
qmc_write32(qmc->scc_regs + SCC_GSMRH,
SCC_GSMRH_CDS | SCC_GSMRH_CTSS | SCC_GSMRH_CDP | SCC_GSMRH_CTSP);
/* enable QMC mode */
qmc_write32(qmc->scc_regs + SCC_GSMRL, SCC_GSMRL_MODE_QMC);
/*
* Allocate the buffer descriptor table
* 8 rx and 8 tx descriptors per channel
*/
qmc->bd_size = (nb_chans * (QMC_NB_TXBDS + QMC_NB_RXBDS)) * sizeof(cbd_t);
qmc->bd_table = dmam_alloc_coherent(qmc->dev, qmc->bd_size,
&qmc->bd_dma_addr, GFP_KERNEL);
if (!qmc->bd_table) {
dev_err(qmc->dev, "Failed to allocate bd table\n");
ret = -ENOMEM;
goto err_tsa_serial_disconnect;
}
memset(qmc->bd_table, 0, qmc->bd_size);
qmc_write32(qmc->scc_pram + QMC_GBL_MCBASE, qmc->bd_dma_addr);
/* Allocate the interrupt table */
qmc->int_size = QMC_NB_INTS * sizeof(u16);
qmc->int_table = dmam_alloc_coherent(qmc->dev, qmc->int_size,
&qmc->int_dma_addr, GFP_KERNEL);
if (!qmc->int_table) {
dev_err(qmc->dev, "Failed to allocate interrupt table\n");
ret = -ENOMEM;
goto err_tsa_serial_disconnect;
}
memset(qmc->int_table, 0, qmc->int_size);
qmc->int_curr = qmc->int_table;
qmc_write32(qmc->scc_pram + QMC_GBL_INTBASE, qmc->int_dma_addr);
qmc_write32(qmc->scc_pram + QMC_GBL_INTPTR, qmc->int_dma_addr);
/* Set MRBLR (valid for HDLC only) max MRU + max CRC */
qmc_write16(qmc->scc_pram + QMC_GBL_MRBLR, HDLC_MAX_MRU + 4);
qmc_write16(qmc->scc_pram + QMC_GBL_GRFTHR, 1);
qmc_write16(qmc->scc_pram + QMC_GBL_GRFCNT, 1);
qmc_write32(qmc->scc_pram + QMC_GBL_C_MASK32, 0xDEBB20E3);
qmc_write16(qmc->scc_pram + QMC_GBL_C_MASK16, 0xF0B8);
ret = qmc_setup_tsa(qmc);
if (ret)
goto err_tsa_serial_disconnect;
qmc_write16(qmc->scc_pram + QMC_GBL_QMCSTATE, 0x8000);
ret = qmc_setup_chans(qmc);
if (ret)
goto err_tsa_serial_disconnect;
/* Init interrupts table */
ret = qmc_setup_ints(qmc);
if (ret)
goto err_tsa_serial_disconnect;
/* Disable and clear interrupts, set the irq handler */
qmc_write16(qmc->scc_regs + SCC_SCCM, 0x0000);
qmc_write16(qmc->scc_regs + SCC_SCCE, 0x000F);
irq = platform_get_irq(pdev, 0);
if (irq < 0)
goto err_tsa_serial_disconnect;
ret = devm_request_irq(qmc->dev, irq, qmc_irq_handler, 0, "qmc", qmc);
if (ret < 0)
goto err_tsa_serial_disconnect;
/* Enable interrupts */
qmc_write16(qmc->scc_regs + SCC_SCCM,
SCC_SCCE_IQOV | SCC_SCCE_GINT | SCC_SCCE_GUN | SCC_SCCE_GOV);
ret = qmc_finalize_chans(qmc);
if (ret < 0)
goto err_disable_intr;
/* Enable transmiter and receiver */
qmc_setbits32(qmc->scc_regs + SCC_GSMRL, SCC_GSMRL_ENR | SCC_GSMRL_ENT);
platform_set_drvdata(pdev, qmc);
return 0;
err_disable_intr:
qmc_write16(qmc->scc_regs + SCC_SCCM, 0);
err_tsa_serial_disconnect:
tsa_serial_disconnect(qmc->tsa_serial);
return ret;
}
static void qmc_remove(struct platform_device *pdev)
{
struct qmc *qmc = platform_get_drvdata(pdev);
/* Disable transmiter and receiver */
qmc_setbits32(qmc->scc_regs + SCC_GSMRL, 0);
/* Disable interrupts */
qmc_write16(qmc->scc_regs + SCC_SCCM, 0);
/* Disconnect the serial from TSA */
tsa_serial_disconnect(qmc->tsa_serial);
}
static const struct of_device_id qmc_id_table[] = {
{ .compatible = "fsl,cpm1-scc-qmc" },
{} /* sentinel */
};
MODULE_DEVICE_TABLE(of, qmc_id_table);
static struct platform_driver qmc_driver = {
.driver = {
.name = "fsl-qmc",
.of_match_table = of_match_ptr(qmc_id_table),
},
.probe = qmc_probe,
.remove_new = qmc_remove,
};
module_platform_driver(qmc_driver);
struct qmc_chan *qmc_chan_get_byphandle(struct device_node *np, const char *phandle_name)
{
struct of_phandle_args out_args;
struct platform_device *pdev;
struct qmc_chan *qmc_chan;
struct qmc *qmc;
int ret;
ret = of_parse_phandle_with_fixed_args(np, phandle_name, 1, 0,
&out_args);
if (ret < 0)
return ERR_PTR(ret);
if (!of_match_node(qmc_driver.driver.of_match_table, out_args.np)) {
of_node_put(out_args.np);
return ERR_PTR(-EINVAL);
}
pdev = of_find_device_by_node(out_args.np);
of_node_put(out_args.np);
if (!pdev)
return ERR_PTR(-ENODEV);
qmc = platform_get_drvdata(pdev);
if (!qmc) {
platform_device_put(pdev);
return ERR_PTR(-EPROBE_DEFER);
}
if (out_args.args_count != 1) {
platform_device_put(pdev);
return ERR_PTR(-EINVAL);
}
if (out_args.args[0] >= ARRAY_SIZE(qmc->chans)) {
platform_device_put(pdev);
return ERR_PTR(-EINVAL);
}
qmc_chan = qmc->chans[out_args.args[0]];
if (!qmc_chan) {
platform_device_put(pdev);
return ERR_PTR(-ENOENT);
}
return qmc_chan;
}
EXPORT_SYMBOL(qmc_chan_get_byphandle);
void qmc_chan_put(struct qmc_chan *chan)
{
put_device(chan->qmc->dev);
}
EXPORT_SYMBOL(qmc_chan_put);
static void devm_qmc_chan_release(struct device *dev, void *res)
{
struct qmc_chan **qmc_chan = res;
qmc_chan_put(*qmc_chan);
}
struct qmc_chan *devm_qmc_chan_get_byphandle(struct device *dev,
struct device_node *np,
const char *phandle_name)
{
struct qmc_chan *qmc_chan;
struct qmc_chan **dr;
dr = devres_alloc(devm_qmc_chan_release, sizeof(*dr), GFP_KERNEL);
if (!dr)
return ERR_PTR(-ENOMEM);
qmc_chan = qmc_chan_get_byphandle(np, phandle_name);
if (!IS_ERR(qmc_chan)) {
*dr = qmc_chan;
devres_add(dev, dr);
} else {
devres_free(dr);
}
return qmc_chan;
}
EXPORT_SYMBOL(devm_qmc_chan_get_byphandle);
MODULE_AUTHOR("Herve Codina <herve.codina@bootlin.com>");
MODULE_DESCRIPTION("CPM QMC driver");
MODULE_LICENSE("GPL");
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