Release 4.11 drivers/media/pci/cobalt/cobalt-omnitek.c
/*
* Omnitek Scatter-Gather DMA Controller
*
* Copyright 2012-2015 Cisco Systems, Inc. and/or its affiliates.
* All rights reserved.
*
* This program is free software; you may redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; version 2 of the License.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
* BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
* ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE.
*/
#include <linux/string.h>
#include <linux/io.h>
#include <linux/pci_regs.h>
#include <linux/spinlock.h>
#include "cobalt-driver.h"
#include "cobalt-omnitek.h"
/* descriptor */
#define END_OF_CHAIN (1 << 1)
#define INTERRUPT_ENABLE (1 << 2)
#define WRITE_TO_PCI (1 << 3)
#define READ_FROM_PCI (0 << 3)
#define DESCRIPTOR_FLAG_MSK (END_OF_CHAIN | INTERRUPT_ENABLE | WRITE_TO_PCI)
#define NEXT_ADRS_MSK 0xffffffe0
/* control/status register */
#define ENABLE (1 << 0)
#define START (1 << 1)
#define ABORT (1 << 2)
#define DONE (1 << 4)
#define SG_INTERRUPT (1 << 5)
#define EVENT_INTERRUPT (1 << 6)
#define SCATTER_GATHER_MODE (1 << 8)
#define DISABLE_VIDEO_RESYNC (1 << 9)
#define EVENT_INTERRUPT_ENABLE (1 << 10)
#define DIRECTIONAL_MSK (3 << 16)
#define INPUT_ONLY (0 << 16)
#define OUTPUT_ONLY (1 << 16)
#define BIDIRECTIONAL (2 << 16)
#define DMA_TYPE_MEMORY (0 << 18)
#define DMA_TYPE_FIFO (1 << 18)
#define BASE (cobalt->bar0)
#define CAPABILITY_HEADER (BASE)
#define CAPABILITY_REGISTER (BASE + 0x04)
#define PCI_64BIT (1 << 8)
#define LOCAL_64BIT (1 << 9)
#define INTERRUPT_STATUS (BASE + 0x08)
#define PCI(c) (BASE + 0x40 + ((c) * 0x40))
#define SIZE(c) (BASE + 0x58 + ((c) * 0x40))
#define DESCRIPTOR(c) (BASE + 0x50 + ((c) * 0x40))
#define CS_REG(c) (BASE + 0x60 + ((c) * 0x40))
#define BYTES_TRANSFERRED(c) (BASE + 0x64 + ((c) * 0x40))
static char *get_dma_direction(u32 status)
{
switch (status & DIRECTIONAL_MSK) {
case INPUT_ONLY: return "Input";
case OUTPUT_ONLY: return "Output";
case BIDIRECTIONAL: return "Bidirectional";
}
return "";
}
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static void show_dma_capability(struct cobalt *cobalt)
{
u32 header = ioread32(CAPABILITY_HEADER);
u32 capa = ioread32(CAPABILITY_REGISTER);
u32 i;
cobalt_info("Omnitek DMA capability: ID 0x%02x Version 0x%02x Next 0x%x Size 0x%x\n",
header & 0xff, (header >> 8) & 0xff,
(header >> 16) & 0xffff, (capa >> 24) & 0xff);
switch ((capa >> 8) & 0x3) {
case 0:
cobalt_info("Omnitek DMA: 32 bits PCIe and Local\n");
break;
case 1:
cobalt_info("Omnitek DMA: 64 bits PCIe, 32 bits Local\n");
break;
case 3:
cobalt_info("Omnitek DMA: 64 bits PCIe and Local\n");
break;
}
for (i = 0; i < (capa & 0xf); i++) {
u32 status = ioread32(CS_REG(i));
cobalt_info("Omnitek DMA channel #%d: %s %s\n", i,
status & DMA_TYPE_FIFO ? "FIFO" : "MEMORY",
get_dma_direction(status));
}
}
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void omni_sg_dma_start(struct cobalt_stream *s, struct sg_dma_desc_info *desc)
{
struct cobalt *cobalt = s->cobalt;
iowrite32((u32)((u64)desc->bus >> 32), DESCRIPTOR(s->dma_channel) + 4);
iowrite32((u32)desc->bus & NEXT_ADRS_MSK, DESCRIPTOR(s->dma_channel));
iowrite32(ENABLE | SCATTER_GATHER_MODE | START, CS_REG(s->dma_channel));
}
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bool is_dma_done(struct cobalt_stream *s)
{
struct cobalt *cobalt = s->cobalt;
if (ioread32(CS_REG(s->dma_channel)) & DONE)
return true;
return false;
}
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void omni_sg_dma_abort_channel(struct cobalt_stream *s)
{
struct cobalt *cobalt = s->cobalt;
if (is_dma_done(s) == false)
iowrite32(ABORT, CS_REG(s->dma_channel));
}
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int omni_sg_dma_init(struct cobalt *cobalt)
{
u32 capa = ioread32(CAPABILITY_REGISTER);
int i;
cobalt->first_fifo_channel = 0;
cobalt->dma_channels = capa & 0xf;
if (capa & PCI_64BIT)
cobalt->pci_32_bit = false;
else
cobalt->pci_32_bit = true;
for (i = 0; i < cobalt->dma_channels; i++) {
u32 status = ioread32(CS_REG(i));
u32 ctrl = ioread32(CS_REG(i));
if (!(ctrl & DONE))
iowrite32(ABORT, CS_REG(i));
if (!(status & DMA_TYPE_FIFO))
cobalt->first_fifo_channel++;
}
show_dma_capability(cobalt);
return 0;
}
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int descriptor_list_create(struct cobalt *cobalt,
struct scatterlist *scatter_list, bool to_pci, unsigned sglen,
unsigned size, unsigned width, unsigned stride,
struct sg_dma_desc_info *desc)
{
struct sg_dma_descriptor *d = (struct sg_dma_descriptor *)desc->virt;
dma_addr_t next = desc->bus;
unsigned offset = 0;
unsigned copy_bytes = width;
unsigned copied = 0;
bool first = true;
/* Must be 4-byte aligned */
WARN_ON(sg_dma_address(scatter_list) & 3);
WARN_ON(size & 3);
WARN_ON(next & 3);
WARN_ON(stride & 3);
WARN_ON(stride < width);
if (width >= stride)
copy_bytes = stride = size;
while (size) {
dma_addr_t addr = sg_dma_address(scatter_list) + offset;
unsigned bytes;
if (addr == 0)
return -EFAULT;
if (cobalt->pci_32_bit) {
WARN_ON((u64)addr >> 32);
if ((u64)addr >> 32)
return -EFAULT;
}
/* PCIe address */
d->pci_l = addr & 0xffffffff;
/* If dma_addr_t is 32 bits, then addr >> 32 is actually the
equivalent of addr >> 0 in gcc. So must cast to u64. */
d->pci_h = (u64)addr >> 32;
/* Sync to start of streaming frame */
d->local = 0;
d->reserved0 = 0;
/* Transfer bytes */
bytes = min(sg_dma_len(scatter_list) - offset,
copy_bytes - copied);
if (first) {
if (to_pci)
d->local = 0x11111111;
first = false;
if (sglen == 1) {
/* Make sure there are always at least two
* descriptors */
d->bytes = (bytes / 2) & ~3;
d->reserved1 = 0;
size -= d->bytes;
copied += d->bytes;
offset += d->bytes;
addr += d->bytes;
next += sizeof(struct sg_dma_descriptor);
d->next_h = (u32)((u64)next >> 32);
d->next_l = (u32)next |
(to_pci ? WRITE_TO_PCI : 0);
bytes -= d->bytes;
d++;
/* PCIe address */
d->pci_l = addr & 0xffffffff;
/* If dma_addr_t is 32 bits, then addr >> 32
* is actually the equivalent of addr >> 0 in
* gcc. So must cast to u64. */
d->pci_h = (u64)addr >> 32;
/* Sync to start of streaming frame */
d->local = 0;
d->reserved0 = 0;
}
}
d->bytes = bytes;
d->reserved1 = 0;
size -= bytes;
copied += bytes;
offset += bytes;
if (copied == copy_bytes) {
while (copied < stride) {
bytes = min(sg_dma_len(scatter_list) - offset,
stride - copied);
copied += bytes;
offset += bytes;
size -= bytes;
if (sg_dma_len(scatter_list) == offset) {
offset = 0;
scatter_list = sg_next(scatter_list);
}
}
copied = 0;
} else {
offset = 0;
scatter_list = sg_next(scatter_list);
}
/* Next descriptor + control bits */
next += sizeof(struct sg_dma_descriptor);
if (size == 0) {
/* Loopback to the first descriptor */
d->next_h = (u32)((u64)desc->bus >> 32);
d->next_l = (u32)desc->bus |
(to_pci ? WRITE_TO_PCI : 0) | INTERRUPT_ENABLE;
if (!to_pci)
d->local = 0x22222222;
desc->last_desc_virt = d;
} else {
d->next_h = (u32)((u64)next >> 32);
d->next_l = (u32)next | (to_pci ? WRITE_TO_PCI : 0);
}
d++;
}
return 0;
}
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void descriptor_list_chain(struct sg_dma_desc_info *this,
struct sg_dma_desc_info *next)
{
struct sg_dma_descriptor *d = this->last_desc_virt;
u32 direction = d->next_l & WRITE_TO_PCI;
if (next == NULL) {
d->next_h = 0;
d->next_l = direction | INTERRUPT_ENABLE | END_OF_CHAIN;
} else {
d->next_h = (u32)((u64)next->bus >> 32);
d->next_l = (u32)next->bus | direction | INTERRUPT_ENABLE;
}
}
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void *descriptor_list_allocate(struct sg_dma_desc_info *desc, size_t bytes)
{
desc->size = bytes;
desc->virt = dma_alloc_coherent(desc->dev, bytes,
&desc->bus, GFP_KERNEL);
return desc->virt;
}
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void descriptor_list_free(struct sg_dma_desc_info *desc)
{
if (desc->virt)
dma_free_coherent(desc->dev, desc->size,
desc->virt, desc->bus);
desc->virt = NULL;
}
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void descriptor_list_interrupt_enable(struct sg_dma_desc_info *desc)
{
struct sg_dma_descriptor *d = desc->last_desc_virt;
d->next_l |= INTERRUPT_ENABLE;
}
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void descriptor_list_interrupt_disable(struct sg_dma_desc_info *desc)
{
struct sg_dma_descriptor *d = desc->last_desc_virt;
d->next_l &= ~INTERRUPT_ENABLE;
}
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void descriptor_list_loopback(struct sg_dma_desc_info *desc)
{
struct sg_dma_descriptor *d = desc->last_desc_virt;
d->next_h = (u32)((u64)desc->bus >> 32);
d->next_l = (u32)desc->bus | (d->next_l & DESCRIPTOR_FLAG_MSK);
}
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void descriptor_list_end_of_chain(struct sg_dma_desc_info *desc)
{
struct sg_dma_descriptor *d = desc->last_desc_virt;
d->next_l |= END_OF_CHAIN;
}
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