M7350/kernel/drivers/platform/msm/sps/sps_dma.c

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/* Copyright (c) 2011-2013, 2015, The Linux Foundation. All rights reserved.
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*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 and
* only version 2 as published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*/
/* BAM-DMA Manager. */
#ifdef CONFIG_SPS_SUPPORT_BAMDMA
#include <linux/export.h>
#include <linux/memory.h> /* memset */
#include "spsi.h"
#include "bam.h"
#include "sps_bam.h" /* bam_dma_thresh_dma */
#include "sps_core.h" /* sps_h2bam() */
/**
* registers
*/
#define DMA_ENBL (0x00000000)
#ifdef CONFIG_SPS_SUPPORT_NDP_BAM
#define DMA_REVISION (0x00000004)
#define DMA_CONFIG (0x00000008)
#define DMA_CHNL_CONFIG(n) (0x00001000 + 4096 * (n))
#else
#define DMA_CHNL_CONFIG(n) (0x00000004 + 4 * (n))
#define DMA_CONFIG (0x00000040)
#endif
/**
* masks
*/
/* DMA_CHNL_confign */
#ifdef CONFIG_SPS_SUPPORT_NDP_BAM
#define DMA_CHNL_PRODUCER_PIPE_ENABLED 0x40000
#define DMA_CHNL_CONSUMER_PIPE_ENABLED 0x20000
#endif
#define DMA_CHNL_HALT_DONE 0x10000
#define DMA_CHNL_HALT 0x1000
#define DMA_CHNL_ENABLE 0x100
#define DMA_CHNL_ACT_THRESH 0x30
#define DMA_CHNL_WEIGHT 0x7
/* DMA_CONFIG */
#define TESTBUS_SELECT 0x3
/**
*
* Write register with debug info.
*
* @base - bam base virtual address.
* @offset - register offset.
* @val - value to write.
*
*/
static inline void dma_write_reg(void *base, u32 offset, u32 val)
{
iowrite32(val, base + offset);
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SPS_DBG(sps, "sps:bamdma: write reg 0x%x w_val 0x%x.", offset, val);
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}
/**
* Write register masked field with debug info.
*
* @base - bam base virtual address.
* @offset - register offset.
* @mask - register bitmask.
* @val - value to write.
*
*/
static inline void dma_write_reg_field(void *base, u32 offset,
const u32 mask, u32 val)
{
u32 shift = find_first_bit((void *)&mask, 32);
u32 tmp = ioread32(base + offset);
tmp &= ~mask; /* clear written bits */
val = tmp | (val << shift);
iowrite32(val, base + offset);
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SPS_DBG(sps, "sps:bamdma: write reg 0x%x w_val 0x%x.", offset, val);
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}
/* Round max number of pipes to nearest multiple of 2 */
#define DMA_MAX_PIPES ((BAM_MAX_PIPES / 2) * 2)
/* Maximum number of BAM-DMAs supported */
#define MAX_BAM_DMA_DEVICES 1
/* Maximum number of BAMs that will be registered */
#define MAX_BAM_DMA_BAMS 1
/* Pipe enable check values */
#define DMA_PIPES_STATE_DIFF 0
#define DMA_PIPES_BOTH_DISABLED 1
#define DMA_PIPES_BOTH_ENABLED 2
/* Even pipe is tx/dest/input/write, odd pipe is rx/src/output/read */
#define DMA_PIPE_IS_DEST(p) (((p) & 1) == 0)
#define DMA_PIPE_IS_SRC(p) (((p) & 1) != 0)
/* BAM DMA pipe state */
enum bamdma_pipe_state {
PIPE_INACTIVE = 0,
PIPE_ACTIVE
};
/* BAM DMA channel state */
enum bamdma_chan_state {
DMA_CHAN_STATE_FREE = 0,
DMA_CHAN_STATE_ALLOC_EXT, /* Client allocation */
DMA_CHAN_STATE_ALLOC_INT /* Internal (resource mgr) allocation */
};
struct bamdma_chan {
/* Allocation state */
enum bamdma_chan_state state;
/* BAM DMA channel configuration parameters */
u32 threshold;
enum sps_dma_priority priority;
/* HWIO channel configuration parameters */
enum bam_dma_thresh_dma thresh;
enum bam_dma_weight_dma weight;
};
/* BAM DMA device state */
struct bamdma_device {
/* BAM-DMA device state */
int enabled;
int local;
/* BAM device state */
struct sps_bam *bam;
/* BAM handle, for deregistration */
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unsigned long h;
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/* BAM DMA device virtual mapping */
void *virt_addr;
int virtual_mapped;
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phys_addr_t phys_addr;
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void *hwio;
/* BAM DMA pipe/channel state */
u32 num_pipes;
enum bamdma_pipe_state pipes[DMA_MAX_PIPES];
struct bamdma_chan chans[DMA_MAX_PIPES / 2];
};
/* BAM-DMA devices */
static struct bamdma_device bam_dma_dev[MAX_BAM_DMA_DEVICES];
static struct mutex bam_dma_lock;
/*
* The BAM DMA module registers all BAMs in the BSP properties, but only
* uses the first BAM-DMA device for allocations. References to the others
* are stored in the following data array.
*/
static int num_bams;
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static unsigned long bam_handles[MAX_BAM_DMA_BAMS];
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/**
* Find BAM-DMA device
*
* This function finds the BAM-DMA device associated with the BAM handle.
*
* @h - BAM handle
*
* @return - pointer to BAM-DMA device, or NULL on error
*
*/
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static struct bamdma_device *sps_dma_find_device(unsigned long h)
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{
return &bam_dma_dev[0];
}
/**
* BAM DMA device enable
*
* This function enables a BAM DMA device and the associated BAM.
*
* @dev - pointer to BAM DMA device context
*
* @return 0 on success, negative value on error
*
*/
static int sps_dma_device_enable(struct bamdma_device *dev)
{
if (dev->enabled)
return 0;
/*
* If the BAM-DMA device is locally controlled then enable BAM-DMA
* device
*/
if (dev->local)
dma_write_reg(dev->virt_addr, DMA_ENBL, 1);
/* Enable BAM device */
if (sps_bam_enable(dev->bam)) {
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SPS_ERR(sps, "sps:Failed to enable BAM DMA's BAM: %pa",
&dev->phys_addr);
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return SPS_ERROR;
}
dev->enabled = true;
return 0;
}
/**
* BAM DMA device enable
*
* This function initializes a BAM DMA device.
*
* @dev - pointer to BAM DMA device context
*
* @return 0 on success, negative value on error
*
*/
static int sps_dma_device_disable(struct bamdma_device *dev)
{
u32 pipe_index;
if (!dev->enabled)
return 0;
/* Do not disable if channels active */
for (pipe_index = 0; pipe_index < dev->num_pipes; pipe_index++) {
if (dev->pipes[pipe_index] != PIPE_INACTIVE)
break;
}
if (pipe_index < dev->num_pipes) {
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SPS_ERR(sps,
"sps:Fail to disable BAM-DMA %pa:channels are active",
&dev->phys_addr);
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return SPS_ERROR;
}
dev->enabled = false;
/* Disable BAM device */
if (sps_bam_disable(dev->bam)) {
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SPS_ERR(sps,
"sps:Fail to disable BAM-DMA BAM:%pa", &dev->phys_addr);
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return SPS_ERROR;
}
/* Is the BAM-DMA device locally controlled? */
if (dev->local)
/* Disable BAM-DMA device */
dma_write_reg(dev->virt_addr, DMA_ENBL, 0);
return 0;
}
/**
* Initialize BAM DMA device
*
*/
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int sps_dma_device_init(unsigned long h)
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{
struct bamdma_device *dev;
struct sps_bam_props *props;
int result = SPS_ERROR;
mutex_lock(&bam_dma_lock);
/* Find a free BAM-DMA device slot */
dev = NULL;
if (bam_dma_dev[0].bam != NULL) {
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SPS_ERR(sps,
"sps:%s:BAM-DMA BAM device is already initialized.",
__func__);
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goto exit_err;
} else {
dev = &bam_dma_dev[0];
}
/* Record BAM */
memset(dev, 0, sizeof(*dev));
dev->h = h;
dev->bam = sps_h2bam(h);
if (dev->bam == NULL) {
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SPS_ERR(sps,
"sps:%s:BAM-DMA BAM device is not found from the handle.",
__func__);
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goto exit_err;
}
/* Map the BAM DMA device into virtual space, if necessary */
props = &dev->bam->props;
dev->phys_addr = props->periph_phys_addr;
if (props->periph_virt_addr != NULL) {
dev->virt_addr = props->periph_virt_addr;
dev->virtual_mapped = false;
} else {
if (props->periph_virt_size == 0) {
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SPS_ERR(sps,
"sps:Unable to map BAM DMA IO memory: %pa %x",
&dev->phys_addr, props->periph_virt_size);
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goto exit_err;
}
dev->virt_addr = ioremap(dev->phys_addr,
props->periph_virt_size);
if (dev->virt_addr == NULL) {
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SPS_ERR(sps,
"sps:Unable to map BAM DMA IO memory: %pa %x",
&dev->phys_addr, props->periph_virt_size);
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goto exit_err;
}
dev->virtual_mapped = true;
}
dev->hwio = (void *) dev->virt_addr;
/* Is the BAM-DMA device locally controlled? */
if ((props->manage & SPS_BAM_MGR_DEVICE_REMOTE) == 0) {
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SPS_DBG3(sps, "sps:BAM-DMA is controlled locally: %pa",
&dev->phys_addr);
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dev->local = true;
} else {
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SPS_DBG3(sps, "sps:BAM-DMA is controlled remotely: %pa",
&dev->phys_addr);
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dev->local = false;
}
/*
* Enable the BAM DMA and determine the number of pipes/channels.
* Leave the BAM-DMA enabled, since it is always a shared device.
*/
if (sps_dma_device_enable(dev))
goto exit_err;
dev->num_pipes = dev->bam->props.num_pipes;
result = 0;
exit_err:
if (result) {
if (dev != NULL) {
if (dev->virtual_mapped)
iounmap(dev->virt_addr);
dev->bam = NULL;
}
}
mutex_unlock(&bam_dma_lock);
return result;
}
/**
* De-initialize BAM DMA device
*
*/
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int sps_dma_device_de_init(unsigned long h)
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{
struct bamdma_device *dev;
u32 pipe_index;
u32 chan;
int result = 0;
mutex_lock(&bam_dma_lock);
dev = sps_dma_find_device(h);
if (dev == NULL) {
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SPS_ERR(sps, "sps:BAM-DMA: not registered: %lx", h);
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result = SPS_ERROR;
goto exit_err;
}
/* Check for channel leaks */
for (chan = 0; chan < dev->num_pipes / 2; chan++) {
if (dev->chans[chan].state != DMA_CHAN_STATE_FREE) {
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SPS_ERR(sps, "sps:BAM-DMA: channel not free: %d", chan);
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result = SPS_ERROR;
dev->chans[chan].state = DMA_CHAN_STATE_FREE;
}
}
for (pipe_index = 0; pipe_index < dev->num_pipes; pipe_index++) {
if (dev->pipes[pipe_index] != PIPE_INACTIVE) {
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SPS_ERR(sps, "sps:BAM-DMA: pipe not inactive: %d",
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pipe_index);
result = SPS_ERROR;
dev->pipes[pipe_index] = PIPE_INACTIVE;
}
}
/* Disable BAM and BAM-DMA */
if (sps_dma_device_disable(dev))
result = SPS_ERROR;
dev->h = BAM_HANDLE_INVALID;
dev->bam = NULL;
if (dev->virtual_mapped)
iounmap(dev->virt_addr);
exit_err:
mutex_unlock(&bam_dma_lock);
return result;
}
/**
* Initialize BAM DMA module
*
*/
int sps_dma_init(const struct sps_bam_props *bam_props)
{
struct sps_bam_props props;
const struct sps_bam_props *bam_reg;
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unsigned long h;
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/* Init local data */
memset(&bam_dma_dev, 0, sizeof(bam_dma_dev));
num_bams = 0;
memset(bam_handles, 0, sizeof(bam_handles));
/* Create a mutex to control access to the BAM-DMA devices */
mutex_init(&bam_dma_lock);
/* Are there any BAM DMA devices? */
if (bam_props == NULL)
return 0;
/*
* Registers all BAMs in the BSP properties, but only uses the first
* BAM-DMA device for allocations.
*/
if (bam_props->phys_addr) {
/* Force multi-EE option for all BAM-DMAs */
bam_reg = bam_props;
if ((bam_props->options & SPS_BAM_OPT_BAMDMA) &&
(bam_props->manage & SPS_BAM_MGR_MULTI_EE) == 0) {
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SPS_DBG(sps,
"sps:Setting multi-EE options for BAM-DMA: %pa",
&bam_props->phys_addr);
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props = *bam_props;
props.manage |= SPS_BAM_MGR_MULTI_EE;
bam_reg = &props;
}
/* Register the BAM */
if (sps_register_bam_device(bam_reg, &h)) {
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SPS_ERR(sps,
"sps:Fail to register BAM-DMA BAM device: "
"phys %pa", &bam_props->phys_addr);
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return SPS_ERROR;
}
/* Record the BAM so that it may be deregistered later */
if (num_bams < MAX_BAM_DMA_BAMS) {
bam_handles[num_bams] = h;
num_bams++;
} else {
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SPS_ERR(sps, "sps:BAM-DMA: BAM limit exceeded: %d",
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num_bams);
return SPS_ERROR;
}
} else {
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SPS_ERR(sps,
"sps:%s:BAM-DMA phys_addr is zero.",
__func__);
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return SPS_ERROR;
}
return 0;
}
/**
* De-initialize BAM DMA module
*
*/
void sps_dma_de_init(void)
{
int n;
/* De-initialize the BAM devices */
for (n = 0; n < num_bams; n++)
sps_deregister_bam_device(bam_handles[n]);
/* Clear local data */
memset(&bam_dma_dev, 0, sizeof(bam_dma_dev));
num_bams = 0;
memset(bam_handles, 0, sizeof(bam_handles));
}
/**
* Allocate a BAM DMA channel
*
*/
int sps_alloc_dma_chan(const struct sps_alloc_dma_chan *alloc,
struct sps_dma_chan *chan_info)
{
struct bamdma_device *dev;
struct bamdma_chan *chan;
u32 pipe_index;
enum bam_dma_thresh_dma thresh = (enum bam_dma_thresh_dma) 0;
enum bam_dma_weight_dma weight = (enum bam_dma_weight_dma) 0;
int result = SPS_ERROR;
if (alloc == NULL || chan_info == NULL) {
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SPS_ERR(sps,
"sps:%s:invalid parameters", __func__);
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return SPS_ERROR;
}
/* Translate threshold and priority to hwio values */
if (alloc->threshold != SPS_DMA_THRESHOLD_DEFAULT) {
if (alloc->threshold >= 512)
thresh = BAM_DMA_THRESH_512;
else if (alloc->threshold >= 256)
thresh = BAM_DMA_THRESH_256;
else if (alloc->threshold >= 128)
thresh = BAM_DMA_THRESH_128;
else
thresh = BAM_DMA_THRESH_64;
}
weight = alloc->priority;
if ((u32)alloc->priority > (u32)BAM_DMA_WEIGHT_HIGH) {
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SPS_ERR(sps, "sps:BAM-DMA: invalid priority: %x",
alloc->priority);
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return SPS_ERROR;
}
mutex_lock(&bam_dma_lock);
dev = sps_dma_find_device(alloc->dev);
if (dev == NULL) {
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SPS_ERR(sps, "sps:BAM-DMA: invalid BAM handle: %lx",
alloc->dev);
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goto exit_err;
}
/* Search for a free set of pipes */
for (pipe_index = 0, chan = dev->chans;
pipe_index < dev->num_pipes; pipe_index += 2, chan++) {
if (chan->state == DMA_CHAN_STATE_FREE) {
/* Just check pipes for safety */
if (dev->pipes[pipe_index] != PIPE_INACTIVE ||
dev->pipes[pipe_index + 1] != PIPE_INACTIVE) {
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SPS_ERR(sps, "sps:BAM-DMA: channel %d state "
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"error:%d %d",
pipe_index / 2, dev->pipes[pipe_index],
dev->pipes[pipe_index + 1]);
goto exit_err;
}
break; /* Found free pipe */
}
}
if (pipe_index >= dev->num_pipes) {
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SPS_ERR(sps, "sps:BAM-DMA: no free channel. num_pipes = %d",
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dev->num_pipes);
goto exit_err;
}
chan->state = DMA_CHAN_STATE_ALLOC_EXT;
/* Store config values for use when pipes are activated */
chan = &dev->chans[pipe_index / 2];
chan->threshold = alloc->threshold;
chan->thresh = thresh;
chan->priority = alloc->priority;
chan->weight = weight;
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SPS_DBG3(sps, "sps:sps_alloc_dma_chan. pipe %d.\n", pipe_index);
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/* Report allocated pipes to client */
chan_info->dev = dev->h;
/* Dest/input/write pipex */
chan_info->dest_pipe_index = pipe_index;
/* Source/output/read pipe */
chan_info->src_pipe_index = pipe_index + 1;
result = 0;
exit_err:
mutex_unlock(&bam_dma_lock);
return result;
}
EXPORT_SYMBOL(sps_alloc_dma_chan);
/**
* Free a BAM DMA channel
*
*/
int sps_free_dma_chan(struct sps_dma_chan *chan)
{
struct bamdma_device *dev;
u32 pipe_index;
int result = 0;
if (chan == NULL) {
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SPS_ERR(sps,
"sps:%s:chan is NULL", __func__);
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return SPS_ERROR;
}
mutex_lock(&bam_dma_lock);
dev = sps_dma_find_device(chan->dev);
if (dev == NULL) {
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SPS_ERR(sps, "sps:BAM-DMA: invalid BAM handle: %lx", chan->dev);
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result = SPS_ERROR;
goto exit_err;
}
/* Verify the pipe indices */
pipe_index = chan->dest_pipe_index;
if (pipe_index >= dev->num_pipes || ((pipe_index & 1)) ||
(pipe_index + 1) != chan->src_pipe_index) {
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SPS_ERR(sps, "sps:sps_free_dma_chan. Invalid pipe indices."
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"num_pipes=%d.dest=%d.src=%d.",
dev->num_pipes,
chan->dest_pipe_index,
chan->src_pipe_index);
result = SPS_ERROR;
goto exit_err;
}
/* Are both pipes inactive? */
if (dev->chans[pipe_index / 2].state != DMA_CHAN_STATE_ALLOC_EXT ||
dev->pipes[pipe_index] != PIPE_INACTIVE ||
dev->pipes[pipe_index + 1] != PIPE_INACTIVE) {
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SPS_ERR(sps,
"sps:BAM-DMA: attempt to free active chan %d: %d %d",
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pipe_index / 2, dev->pipes[pipe_index],
dev->pipes[pipe_index + 1]);
result = SPS_ERROR;
goto exit_err;
}
/* Free the channel */
dev->chans[pipe_index / 2].state = DMA_CHAN_STATE_FREE;
exit_err:
mutex_unlock(&bam_dma_lock);
return result;
}
EXPORT_SYMBOL(sps_free_dma_chan);
/**
* Activate a BAM DMA pipe
*
* This function activates a BAM DMA pipe.
*
* @dev - pointer to BAM-DMA device descriptor
*
* @pipe_index - pipe index
*
* @return 0 on success, negative value on error
*
*/
static u32 sps_dma_check_pipes(struct bamdma_device *dev, u32 pipe_index)
{
u32 pipe_in;
u32 pipe_out;
int enabled_in;
int enabled_out;
u32 check;
pipe_in = pipe_index & ~1;
pipe_out = pipe_in + 1;
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enabled_in = bam_pipe_is_enabled(&dev->bam->base, pipe_in);
enabled_out = bam_pipe_is_enabled(&dev->bam->base, pipe_out);
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if (!enabled_in && !enabled_out)
check = DMA_PIPES_BOTH_DISABLED;
else if (enabled_in && enabled_out)
check = DMA_PIPES_BOTH_ENABLED;
else
check = DMA_PIPES_STATE_DIFF;
return check;
}
/**
* Allocate a BAM DMA pipe
*
*/
int sps_dma_pipe_alloc(void *bam_arg, u32 pipe_index, enum sps_mode dir)
{
struct sps_bam *bam = bam_arg;
struct bamdma_device *dev;
struct bamdma_chan *chan;
u32 channel;
int result = SPS_ERROR;
if (bam == NULL) {
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SPS_ERR(sps, "%s", "sps:BAM context is NULL");
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return SPS_ERROR;
}
/* Check pipe direction */
if ((DMA_PIPE_IS_DEST(pipe_index) && dir != SPS_MODE_DEST) ||
(DMA_PIPE_IS_SRC(pipe_index) && dir != SPS_MODE_SRC)) {
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SPS_ERR(sps, "sps:BAM-DMA: wrong direction for BAM %pa pipe %d",
&bam->props.phys_addr, pipe_index);
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return SPS_ERROR;
}
mutex_lock(&bam_dma_lock);
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dev = sps_dma_find_device((unsigned long) bam);
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if (dev == NULL) {
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SPS_ERR(sps, "sps:BAM-DMA: invalid BAM: %pa",
&bam->props.phys_addr);
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goto exit_err;
}
if (pipe_index >= dev->num_pipes) {
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SPS_ERR(sps, "sps:BAM-DMA: BAM %pa invalid pipe: %d",
&bam->props.phys_addr, pipe_index);
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goto exit_err;
}
if (dev->pipes[pipe_index] != PIPE_INACTIVE) {
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SPS_ERR(sps, "sps:BAM-DMA: BAM %pa pipe %d already active",
&bam->props.phys_addr, pipe_index);
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goto exit_err;
}
/* Mark pipe active */
dev->pipes[pipe_index] = PIPE_ACTIVE;
/* If channel is not allocated, make an internal allocation */
channel = pipe_index / 2;
chan = &dev->chans[channel];
if (chan->state != DMA_CHAN_STATE_ALLOC_EXT &&
chan->state != DMA_CHAN_STATE_ALLOC_INT) {
chan->state = DMA_CHAN_STATE_ALLOC_INT;
}
result = 0;
exit_err:
mutex_unlock(&bam_dma_lock);
return result;
}
/**
* Enable a BAM DMA pipe
*
*/
int sps_dma_pipe_enable(void *bam_arg, u32 pipe_index)
{
struct sps_bam *bam = bam_arg;
struct bamdma_device *dev;
struct bamdma_chan *chan;
u32 channel;
int result = SPS_ERROR;
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SPS_DBG3(sps, "sps:sps_dma_pipe_enable.pipe %d", pipe_index);
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mutex_lock(&bam_dma_lock);
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dev = sps_dma_find_device((unsigned long) bam);
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if (dev == NULL) {
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SPS_ERR(sps, "sps:%s:BAM-DMA: invalid BAM", __func__);
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goto exit_err;
}
if (pipe_index >= dev->num_pipes) {
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SPS_ERR(sps, "sps:BAM-DMA: BAM %pa invalid pipe: %d",
&bam->props.phys_addr, pipe_index);
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goto exit_err;
}
if (dev->pipes[pipe_index] != PIPE_ACTIVE) {
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SPS_ERR(sps, "sps:BAM-DMA: BAM %pa pipe %d not active",
&bam->props.phys_addr, pipe_index);
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goto exit_err;
}
/*
* The channel must be enabled when the dest/input/write pipe
* is enabled
*/
if (DMA_PIPE_IS_DEST(pipe_index)) {
/* Configure and enable the channel */
channel = pipe_index / 2;
chan = &dev->chans[channel];
if (chan->threshold != SPS_DMA_THRESHOLD_DEFAULT)
dma_write_reg_field(dev->virt_addr,
DMA_CHNL_CONFIG(channel),
DMA_CHNL_ACT_THRESH,
chan->thresh);
if (chan->priority != SPS_DMA_PRI_DEFAULT)
dma_write_reg_field(dev->virt_addr,
DMA_CHNL_CONFIG(channel),
DMA_CHNL_WEIGHT,
chan->weight);
dma_write_reg_field(dev->virt_addr,
DMA_CHNL_CONFIG(channel),
DMA_CHNL_ENABLE, 1);
}
result = 0;
exit_err:
mutex_unlock(&bam_dma_lock);
return result;
}
/**
* Deactivate a BAM DMA pipe
*
* This function deactivates a BAM DMA pipe.
*
* @dev - pointer to BAM-DMA device descriptor
*
* @bam - pointer to BAM device descriptor
*
* @pipe_index - pipe index
*
* @return 0 on success, negative value on error
*
*/
static int sps_dma_deactivate_pipe_atomic(struct bamdma_device *dev,
struct sps_bam *bam,
u32 pipe_index)
{
u32 channel;
if (dev->bam != bam)
return SPS_ERROR;
if (pipe_index >= dev->num_pipes)
return SPS_ERROR;
if (dev->pipes[pipe_index] != PIPE_ACTIVE)
return SPS_ERROR; /* Pipe is not active */
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SPS_DBG3(sps, "sps:BAM-DMA: deactivate pipe %d", pipe_index);
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/* Mark pipe inactive */
dev->pipes[pipe_index] = PIPE_INACTIVE;
/*
* Channel must be reset when either pipe is disabled, so just always
* reset regardless of other pipe's state
*/
channel = pipe_index / 2;
dma_write_reg_field(dev->virt_addr, DMA_CHNL_CONFIG(channel),
DMA_CHNL_ENABLE, 0);
/* If the peer pipe is also inactive, reset the channel */
if (sps_dma_check_pipes(dev, pipe_index) == DMA_PIPES_BOTH_DISABLED) {
/* Free channel if allocated internally */
if (dev->chans[channel].state == DMA_CHAN_STATE_ALLOC_INT)
dev->chans[channel].state = DMA_CHAN_STATE_FREE;
}
return 0;
}
/**
* Free a BAM DMA pipe
*
*/
int sps_dma_pipe_free(void *bam_arg, u32 pipe_index)
{
struct bamdma_device *dev;
struct sps_bam *bam = bam_arg;
int result;
mutex_lock(&bam_dma_lock);
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dev = sps_dma_find_device((unsigned long) bam);
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if (dev == NULL) {
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SPS_ERR(sps, "sps:%s:BAM-DMA: invalid BAM", __func__);
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result = SPS_ERROR;
goto exit_err;
}
result = sps_dma_deactivate_pipe_atomic(dev, bam, pipe_index);
exit_err:
mutex_unlock(&bam_dma_lock);
return result;
}
/**
* Get the BAM handle for BAM-DMA.
*
* The BAM handle should be use as source/destination in the sps_connect().
*
* @return bam handle on success, zero on error
*/
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unsigned long sps_dma_get_bam_handle(void)
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{
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return (unsigned long)bam_dma_dev[0].bam;
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}
EXPORT_SYMBOL(sps_dma_get_bam_handle);
/**
* Free the BAM handle for BAM-DMA.
*
*/
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void sps_dma_free_bam_handle(unsigned long h)
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{
}
EXPORT_SYMBOL(sps_dma_free_bam_handle);
#endif /* CONFIG_SPS_SUPPORT_BAMDMA */