cregit-Linux how code gets into the kernel

Release 4.7 drivers/iio/buffer/industrialio-buffer-dma.c

/*
 * Copyright 2013-2015 Analog Devices Inc.
 *  Author: Lars-Peter Clausen <lars@metafoo.de>
 *
 * Licensed under the GPL-2.
 */

#include <linux/slab.h>
#include <linux/kernel.h>
#include <linux/module.h>
#include <linux/device.h>
#include <linux/workqueue.h>
#include <linux/mutex.h>
#include <linux/sched.h>
#include <linux/poll.h>
#include <linux/iio/buffer.h>
#include <linux/iio/buffer-dma.h>
#include <linux/dma-mapping.h>
#include <linux/sizes.h>

/*
 * For DMA buffers the storage is sub-divided into so called blocks. Each block
 * has its own memory buffer. The size of the block is the granularity at which
 * memory is exchanged between the hardware and the application. Increasing the
 * basic unit of data exchange from one sample to one block decreases the
 * management overhead that is associated with each sample. E.g. if we say the
 * management overhead for one exchange is x and the unit of exchange is one
 * sample the overhead will be x for each sample. Whereas when using a block
 * which contains n samples the overhead per sample is reduced to x/n. This
 * allows to achieve much higher samplerates than what can be sustained with
 * the one sample approach.
 *
 * Blocks are exchanged between the DMA controller and the application via the
 * means of two queues. The incoming queue and the outgoing queue. Blocks on the
 * incoming queue are waiting for the DMA controller to pick them up and fill
 * them with data. Block on the outgoing queue have been filled with data and
 * are waiting for the application to dequeue them and read the data.
 *
 * A block can be in one of the following states:
 *  * Owned by the application. In this state the application can read data from
 *    the block.
 *  * On the incoming list: Blocks on the incoming list are queued up to be
 *    processed by the DMA controller.
 *  * Owned by the DMA controller: The DMA controller is processing the block
 *    and filling it with data.
 *  * On the outgoing list: Blocks on the outgoing list have been successfully
 *    processed by the DMA controller and contain data. They can be dequeued by
 *    the application.
 *  * Dead: A block that is dead has been marked as to be freed. It might still
 *    be owned by either the application or the DMA controller at the moment.
 *    But once they are done processing it instead of going to either the
 *    incoming or outgoing queue the block will be freed.
 *
 * In addition to this blocks are reference counted and the memory associated
 * with both the block structure as well as the storage memory for the block
 * will be freed when the last reference to the block is dropped. This means a
 * block must not be accessed without holding a reference.
 *
 * The iio_dma_buffer implementation provides a generic infrastructure for
 * managing the blocks.
 *
 * A driver for a specific piece of hardware that has DMA capabilities need to
 * implement the submit() callback from the iio_dma_buffer_ops structure. This
 * callback is supposed to initiate the DMA transfer copying data from the
 * converter to the memory region of the block. Once the DMA transfer has been
 * completed the driver must call iio_dma_buffer_block_done() for the completed
 * block.
 *
 * Prior to this it must set the bytes_used field of the block contains
 * the actual number of bytes in the buffer. Typically this will be equal to the
 * size of the block, but if the DMA hardware has certain alignment requirements
 * for the transfer length it might choose to use less than the full size. In
 * either case it is expected that bytes_used is a multiple of the bytes per
 * datum, i.e. the block must not contain partial samples.
 *
 * The driver must call iio_dma_buffer_block_done() for each block it has
 * received through its submit_block() callback, even if it does not actually
 * perform a DMA transfer for the block, e.g. because the buffer was disabled
 * before the block transfer was started. In this case it should set bytes_used
 * to 0.
 *
 * In addition it is recommended that a driver implements the abort() callback.
 * It will be called when the buffer is disabled and can be used to cancel
 * pending and stop active transfers.
 *
 * The specific driver implementation should use the default callback
 * implementations provided by this module for the iio_buffer_access_funcs
 * struct. It may overload some callbacks with custom variants if the hardware
 * has special requirements that are not handled by the generic functions. If a
 * driver chooses to overload a callback it has to ensure that the generic
 * callback is called from within the custom callback.
 */


static void iio_buffer_block_release(struct kref *kref) { struct iio_dma_buffer_block *block = container_of(kref, struct iio_dma_buffer_block, kref); WARN_ON(block->state != IIO_BLOCK_STATE_DEAD); dma_free_coherent(block->queue->dev, PAGE_ALIGN(block->size), block->vaddr, block->phys_addr); iio_buffer_put(&block->queue->buffer); kfree(block); }

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static void iio_buffer_block_get(struct iio_dma_buffer_block *block) { kref_get(&block->kref); }

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static void iio_buffer_block_put(struct iio_dma_buffer_block *block) { kref_put(&block->kref, iio_buffer_block_release); }

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/* * dma_free_coherent can sleep, hence we need to take some special care to be * able to drop a reference from an atomic context. */ static LIST_HEAD(iio_dma_buffer_dead_blocks); static DEFINE_SPINLOCK(iio_dma_buffer_dead_blocks_lock);
static void iio_dma_buffer_cleanup_worker(struct work_struct *work) { struct iio_dma_buffer_block *block, *_block; LIST_HEAD(block_list); spin_lock_irq(&iio_dma_buffer_dead_blocks_lock); list_splice_tail_init(&iio_dma_buffer_dead_blocks, &block_list); spin_unlock_irq(&iio_dma_buffer_dead_blocks_lock); list_for_each_entry_safe(block, _block, &block_list, head) iio_buffer_block_release(&block->kref); }

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static DECLARE_WORK(iio_dma_buffer_cleanup_work, iio_dma_buffer_cleanup_worker);
static void iio_buffer_block_release_atomic(struct kref *kref) { struct iio_dma_buffer_block *block; unsigned long flags; block = container_of(kref, struct iio_dma_buffer_block, kref); spin_lock_irqsave(&iio_dma_buffer_dead_blocks_lock, flags); list_add_tail(&block->head, &iio_dma_buffer_dead_blocks); spin_unlock_irqrestore(&iio_dma_buffer_dead_blocks_lock, flags); schedule_work(&iio_dma_buffer_cleanup_work); }

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/* * Version of iio_buffer_block_put() that can be called from atomic context */
static void iio_buffer_block_put_atomic(struct iio_dma_buffer_block *block) { kref_put(&block->kref, iio_buffer_block_release_atomic); }

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static struct iio_dma_buffer_queue *iio_buffer_to_queue(struct iio_buffer *buf) { return container_of(buf, struct iio_dma_buffer_queue, buffer); }

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static struct iio_dma_buffer_block *iio_dma_buffer_alloc_block( struct iio_dma_buffer_queue *queue, size_t size) { struct iio_dma_buffer_block *block; block = kzalloc(sizeof(*block), GFP_KERNEL); if (!block) return NULL; block->vaddr = dma_alloc_coherent(queue->dev, PAGE_ALIGN(size), &block->phys_addr, GFP_KERNEL); if (!block->vaddr) { kfree(block); return NULL; } block->size = size; block->state = IIO_BLOCK_STATE_DEQUEUED; block->queue = queue; INIT_LIST_HEAD(&block->head); kref_init(&block->kref); iio_buffer_get(&queue->buffer); return block; }

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static void _iio_dma_buffer_block_done(struct iio_dma_buffer_block *block) { struct iio_dma_buffer_queue *queue = block->queue; /* * The buffer has already been freed by the application, just drop the * reference. */ if (block->state != IIO_BLOCK_STATE_DEAD) { block->state = IIO_BLOCK_STATE_DONE; list_add_tail(&block->head, &queue->outgoing); } }

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/** * iio_dma_buffer_block_done() - Indicate that a block has been completed * @block: The completed block * * Should be called when the DMA controller has finished handling the block to * pass back ownership of the block to the queue. */
void iio_dma_buffer_block_done(struct iio_dma_buffer_block *block) { struct iio_dma_buffer_queue *queue = block->queue; unsigned long flags; spin_lock_irqsave(&queue->list_lock, flags); _iio_dma_buffer_block_done(block); spin_unlock_irqrestore(&queue->list_lock, flags); iio_buffer_block_put_atomic(block); wake_up_interruptible_poll(&queue->buffer.pollq, POLLIN | POLLRDNORM); }

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EXPORT_SYMBOL_GPL(iio_dma_buffer_block_done); /** * iio_dma_buffer_block_list_abort() - Indicate that a list block has been * aborted * @queue: Queue for which to complete blocks. * @list: List of aborted blocks. All blocks in this list must be from @queue. * * Typically called from the abort() callback after the DMA controller has been * stopped. This will set bytes_used to 0 for each block in the list and then * hand the blocks back to the queue. */
void iio_dma_buffer_block_list_abort(struct iio_dma_buffer_queue *queue, struct list_head *list) { struct iio_dma_buffer_block *block, *_block; unsigned long flags; spin_lock_irqsave(&queue->list_lock, flags); list_for_each_entry_safe(block, _block, list, head) { list_del(&block->head); block->bytes_used = 0; _iio_dma_buffer_block_done(block); iio_buffer_block_put_atomic(block); } spin_unlock_irqrestore(&queue->list_lock, flags); wake_up_interruptible_poll(&queue->buffer.pollq, POLLIN | POLLRDNORM); }

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EXPORT_SYMBOL_GPL(iio_dma_buffer_block_list_abort);
static bool iio_dma_block_reusable(struct iio_dma_buffer_block *block) { /* * If the core owns the block it can be re-used. This should be the * default case when enabling the buffer, unless the DMA controller does * not support abort and has not given back the block yet. */ switch (block->state) { case IIO_BLOCK_STATE_DEQUEUED: case IIO_BLOCK_STATE_QUEUED: case IIO_BLOCK_STATE_DONE: return true; default: return false; } }

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/** * iio_dma_buffer_request_update() - DMA buffer request_update callback * @buffer: The buffer which to request an update * * Should be used as the iio_dma_buffer_request_update() callback for * iio_buffer_access_ops struct for DMA buffers. */
int iio_dma_buffer_request_update(struct iio_buffer *buffer) { struct iio_dma_buffer_queue *queue = iio_buffer_to_queue(buffer); struct iio_dma_buffer_block *block; bool try_reuse = false; size_t size; int ret = 0; int i; /* * Split the buffer into two even parts. This is used as a double * buffering scheme with usually one block at a time being used by the * DMA and the other one by the application. */ size = DIV_ROUND_UP(queue->buffer.bytes_per_datum * queue->buffer.length, 2); mutex_lock(&queue->lock); /* Allocations are page aligned */ if (PAGE_ALIGN(queue->fileio.block_size) == PAGE_ALIGN(size)) try_reuse = true; queue->fileio.block_size = size; queue->fileio.active_block = NULL; spin_lock_irq(&queue->list_lock); for (i = 0; i < 2; i++) { block = queue->fileio.blocks[i]; /* If we can't re-use it free it */ if (block && (!iio_dma_block_reusable(block) || !try_reuse)) block->state = IIO_BLOCK_STATE_DEAD; } /* * At this point all blocks are either owned by the core or marked as * dead. This means we can reset the lists without having to fear * corrution. */ INIT_LIST_HEAD(&queue->outgoing); spin_unlock_irq(&queue->list_lock); INIT_LIST_HEAD(&queue->incoming); for (i = 0; i < 2; i++) { if (queue->fileio.blocks[i]) { block = queue->fileio.blocks[i]; if (block->state == IIO_BLOCK_STATE_DEAD) { /* Could not reuse it */ iio_buffer_block_put(block); block = NULL; } else { block->size = size; } } else { block = NULL; } if (!block) { block = iio_dma_buffer_alloc_block(queue, size); if (!block) { ret = -ENOMEM; goto out_unlock; } queue->fileio.blocks[i] = block; } block->state = IIO_BLOCK_STATE_QUEUED; list_add_tail(&block->head, &queue->incoming); } out_unlock: mutex_unlock(&queue->lock); return ret; }

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EXPORT_SYMBOL_GPL(iio_dma_buffer_request_update);
static void iio_dma_buffer_submit_block(struct iio_dma_buffer_queue *queue, struct iio_dma_buffer_block *block) { int ret; /* * If the hardware has already been removed we put the block into * limbo. It will neither be on the incoming nor outgoing list, nor will * it ever complete. It will just wait to be freed eventually. */ if (!queue->ops) return; block->state = IIO_BLOCK_STATE_ACTIVE; iio_buffer_block_get(block); ret = queue->ops->submit(queue, block); if (ret) { /* * This is a bit of a problem and there is not much we can do * other then wait for the buffer to be disabled and re-enabled * and try again. But it should not really happen unless we run * out of memory or something similar. * * TODO: Implement support in the IIO core to allow buffers to * notify consumers that something went wrong and the buffer * should be disabled. */ iio_buffer_block_put(block); } }

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/** * iio_dma_buffer_enable() - Enable DMA buffer * @buffer: IIO buffer to enable * @indio_dev: IIO device the buffer is attached to * * Needs to be called when the device that the buffer is attached to starts * sampling. Typically should be the iio_buffer_access_ops enable callback. * * This will allocate the DMA buffers and start the DMA transfers. */
int iio_dma_buffer_enable(struct iio_buffer *buffer, struct iio_dev *indio_dev) { struct iio_dma_buffer_queue *queue = iio_buffer_to_queue(buffer); struct iio_dma_buffer_block *block, *_block; mutex_lock(&queue->lock); queue->active = true; list_for_each_entry_safe(block, _block, &queue->incoming, head) { list_del(&block->head); iio_dma_buffer_submit_block(queue, block); } mutex_unlock(&queue->lock); return 0; }

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EXPORT_SYMBOL_GPL(iio_dma_buffer_enable); /** * iio_dma_buffer_disable() - Disable DMA buffer * @buffer: IIO DMA buffer to disable * @indio_dev: IIO device the buffer is attached to * * Needs to be called when the device that the buffer is attached to stops * sampling. Typically should be the iio_buffer_access_ops disable callback. */
int iio_dma_buffer_disable(struct iio_buffer *buffer, struct iio_dev *indio_dev) { struct iio_dma_buffer_queue *queue = iio_buffer_to_queue(buffer); mutex_lock(&queue->lock); queue->active = false; if (queue->ops && queue->ops->abort) queue->ops->abort(queue); mutex_unlock(&queue->lock); return 0; }

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EXPORT_SYMBOL_GPL(iio_dma_buffer_disable);
static void iio_dma_buffer_enqueue(struct iio_dma_buffer_queue *queue, struct iio_dma_buffer_block *block) { if (block->state == IIO_BLOCK_STATE_DEAD) { iio_buffer_block_put(block); } else if (queue->active) { iio_dma_buffer_submit_block(queue, block); } else { block->state = IIO_BLOCK_STATE_QUEUED; list_add_tail(&block->head, &queue->incoming); } }

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static struct iio_dma_buffer_block *iio_dma_buffer_dequeue( struct iio_dma_buffer_queue *queue) { struct iio_dma_buffer_block *block; spin_lock_irq(&queue->list_lock); block = list_first_entry_or_null(&queue->outgoing, struct iio_dma_buffer_block, head); if (block != NULL) { list_del(&block->head); block->state = IIO_BLOCK_STATE_DEQUEUED; } spin_unlock_irq(&queue->list_lock); return block; }

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/** * iio_dma_buffer_read() - DMA buffer read callback * @buffer: Buffer to read form * @n: Number of bytes to read * @user_buffer: Userspace buffer to copy the data to * * Should be used as the read_first_n callback for iio_buffer_access_ops * struct for DMA buffers. */
int iio_dma_buffer_read(struct iio_buffer *buffer, size_t n, char __user *user_buffer) { struct iio_dma_buffer_queue *queue = iio_buffer_to_queue(buffer); struct iio_dma_buffer_block *block; int ret; if (n < buffer->bytes_per_datum) return -EINVAL; mutex_lock(&queue->lock); if (!queue->fileio.active_block) { block = iio_dma_buffer_dequeue(queue); if (block == NULL) { ret = 0; goto out_unlock; } queue->fileio.pos = 0; queue->fileio.active_block = block; } else { block = queue->fileio.active_block; } n = rounddown(n, buffer->bytes_per_datum); if (n > block->bytes_used - queue->fileio.pos) n = block->bytes_used - queue->fileio.pos; if (copy_to_user(user_buffer, block->vaddr + queue->fileio.pos, n)) { ret = -EFAULT; goto out_unlock; } queue->fileio.pos += n; if (queue->fileio.pos == block->bytes_used) { queue->fileio.active_block = NULL; iio_dma_buffer_enqueue(queue, block); } ret = n; out_unlock: mutex_unlock(&queue->lock); return ret; }

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EXPORT_SYMBOL_GPL(iio_dma_buffer_read); /** * iio_dma_buffer_data_available() - DMA buffer data_available callback * @buf: Buffer to check for data availability * * Should be used as the data_available callback for iio_buffer_access_ops * struct for DMA buffers. */
size_t iio_dma_buffer_data_available(struct iio_buffer *buf) { struct iio_dma_buffer_queue *queue = iio_buffer_to_queue(buf); struct iio_dma_buffer_block *block; size_t data_available = 0; /* * For counting the available bytes we'll use the size of the block not * the number of actual bytes available in the block. Otherwise it is * possible that we end up with a value that is lower than the watermark * but won't increase since all blocks are in use. */ mutex_lock(&queue->lock); if (queue->fileio.active_block) data_available += queue->fileio.active_block->size; spin_lock_irq(&queue->list_lock); list_for_each_entry(block, &queue->outgoing, head) data_available += block->size; spin_unlock_irq(&queue->list_lock); mutex_unlock(&queue->lock); return data_available; }

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EXPORT_SYMBOL_GPL(iio_dma_buffer_data_available); /** * iio_dma_buffer_set_bytes_per_datum() - DMA buffer set_bytes_per_datum callback * @buffer: Buffer to set the bytes-per-datum for * @bpd: The new bytes-per-datum value * * Should be used as the set_bytes_per_datum callback for iio_buffer_access_ops * struct for DMA buffers. */
int iio_dma_buffer_set_bytes_per_datum(struct iio_buffer *buffer, size_t bpd) { buffer->bytes_per_datum = bpd; return 0; }

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EXPORT_SYMBOL_GPL(iio_dma_buffer_set_bytes_per_datum); /** * iio_dma_buffer_set_length - DMA buffer set_length callback * @buffer: Buffer to set the length for * @length: The new buffer length * * Should be used as the set_length callback for iio_buffer_access_ops * struct for DMA buffers. */
int iio_dma_buffer_set_length(struct iio_buffer *buffer, int length) { /* Avoid an invalid state */ if (length < 2) length = 2; buffer->length = length; buffer->watermark = length / 2; return 0; }

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EXPORT_SYMBOL_GPL(iio_dma_buffer_set_length); /** * iio_dma_buffer_init() - Initialize DMA buffer queue * @queue: Buffer to initialize * @dev: DMA device * @ops: DMA buffer queue callback operations * * The DMA device will be used by the queue to do DMA memory allocations. So it * should refer to the device that will perform the DMA to ensure that * allocations are done from a memory region that can be accessed by the device. */
int iio_dma_buffer_init(struct iio_dma_buffer_queue *queue, struct device *dev, const struct iio_dma_buffer_ops *ops) { iio_buffer_init(&queue->buffer); queue->buffer.length = PAGE_SIZE; queue->buffer.watermark = queue->buffer.length / 2; queue->dev = dev; queue->ops = ops; INIT_LIST_HEAD(&queue->incoming); INIT_LIST_HEAD(&queue->outgoing); mutex_init(&queue->lock); spin_lock_init(&queue->list_lock); return 0; }

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EXPORT_SYMBOL_GPL(iio_dma_buffer_init); /** * iio_dma_buffer_exit() - Cleanup DMA buffer queue * @queue: Buffer to cleanup * * After this function has completed it is safe to free any resources that are * associated with the buffer and are accessed inside the callback operations. */
void iio_dma_buffer_exit(struct iio_dma_buffer_queue *queue) { unsigned int i; mutex_lock(&queue->lock); spin_lock_irq(&queue->list_lock); for (i = 0; i < ARRAY_SIZE(queue->fileio.blocks); i++) { if (!queue->fileio.blocks[i]) continue; queue->fileio.blocks[i]->state = IIO_BLOCK_STATE_DEAD; } INIT_LIST_HEAD(&queue->outgoing); spin_unlock_irq(&queue->list_lock); INIT_LIST_HEAD(&queue->incoming); for (i = 0; i < ARRAY_SIZE(queue->fileio.blocks); i++) { if (!queue->fileio.blocks[i]) continue; iio_buffer_block_put(queue->fileio.blocks[i]); queue->fileio.blocks[i] = NULL; } queue->fileio.active_block = NULL; queue->ops = NULL; mutex_unlock(&queue->lock); }

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EXPORT_SYMBOL_GPL(iio_dma_buffer_exit); /** * iio_dma_buffer_release() - Release final buffer resources * @queue: Buffer to release * * Frees resources that can't yet be freed in iio_dma_buffer_exit(). Should be * called in the buffers release callback implementation right before freeing * the memory associated with the buffer. */
void iio_dma_buffer_release(struct iio_dma_buffer_queue *queue) { mutex_destroy(&queue->lock); }

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EXPORT_SYMBOL_GPL(iio_dma_buffer_release); MODULE_AUTHOR("Lars-Peter Clausen <lars@metafoo.de>"); MODULE_DESCRIPTION("DMA buffer for the IIO framework"); MODULE_LICENSE("GPL v2");

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