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|
/*
* V4L2 Driver for PXA camera host
*
* Copyright (C) 2006, Sascha Hauer, Pengutronix
* Copyright (C) 2008, Guennadi Liakhovetski <kernel@pengutronix.de>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*/
#include <linux/init.h>
#include <linux/module.h>
#include <linux/io.h>
#include <linux/delay.h>
#include <linux/dma-mapping.h>
#include <linux/errno.h>
#include <linux/fs.h>
#include <linux/interrupt.h>
#include <linux/kernel.h>
#include <linux/mm.h>
#include <linux/moduleparam.h>
#include <linux/time.h>
#include <linux/version.h>
#include <linux/device.h>
#include <linux/platform_device.h>
#include <linux/clk.h>
#include <media/v4l2-common.h>
#include <media/v4l2-dev.h>
#include <media/videobuf-dma-sg.h>
#include <media/soc_camera.h>
#include <linux/videodev2.h>
#include <mach/dma.h>
#include <mach/camera.h>
#define PXA_CAM_VERSION_CODE KERNEL_VERSION(0, 0, 5)
#define PXA_CAM_DRV_NAME "pxa27x-camera"
/* Camera Interface */
#define CICR0 0x0000
#define CICR1 0x0004
#define CICR2 0x0008
#define CICR3 0x000C
#define CICR4 0x0010
#define CISR 0x0014
#define CIFR 0x0018
#define CITOR 0x001C
#define CIBR0 0x0028
#define CIBR1 0x0030
#define CIBR2 0x0038
#define CICR0_DMAEN (1 << 31) /* DMA request enable */
#define CICR0_PAR_EN (1 << 30) /* Parity enable */
#define CICR0_SL_CAP_EN (1 << 29) /* Capture enable for slave mode */
#define CICR0_ENB (1 << 28) /* Camera interface enable */
#define CICR0_DIS (1 << 27) /* Camera interface disable */
#define CICR0_SIM (0x7 << 24) /* Sensor interface mode mask */
#define CICR0_TOM (1 << 9) /* Time-out mask */
#define CICR0_RDAVM (1 << 8) /* Receive-data-available mask */
#define CICR0_FEM (1 << 7) /* FIFO-empty mask */
#define CICR0_EOLM (1 << 6) /* End-of-line mask */
#define CICR0_PERRM (1 << 5) /* Parity-error mask */
#define CICR0_QDM (1 << 4) /* Quick-disable mask */
#define CICR0_CDM (1 << 3) /* Disable-done mask */
#define CICR0_SOFM (1 << 2) /* Start-of-frame mask */
#define CICR0_EOFM (1 << 1) /* End-of-frame mask */
#define CICR0_FOM (1 << 0) /* FIFO-overrun mask */
#define CICR1_TBIT (1 << 31) /* Transparency bit */
#define CICR1_RGBT_CONV (0x3 << 29) /* RGBT conversion mask */
#define CICR1_PPL (0x7ff << 15) /* Pixels per line mask */
#define CICR1_RGB_CONV (0x7 << 12) /* RGB conversion mask */
#define CICR1_RGB_F (1 << 11) /* RGB format */
#define CICR1_YCBCR_F (1 << 10) /* YCbCr format */
#define CICR1_RGB_BPP (0x7 << 7) /* RGB bis per pixel mask */
#define CICR1_RAW_BPP (0x3 << 5) /* Raw bis per pixel mask */
#define CICR1_COLOR_SP (0x3 << 3) /* Color space mask */
#define CICR1_DW (0x7 << 0) /* Data width mask */
#define CICR2_BLW (0xff << 24) /* Beginning-of-line pixel clock
wait count mask */
#define CICR2_ELW (0xff << 16) /* End-of-line pixel clock
wait count mask */
#define CICR2_HSW (0x3f << 10) /* Horizontal sync pulse width mask */
#define CICR2_BFPW (0x3f << 3) /* Beginning-of-frame pixel clock
wait count mask */
#define CICR2_FSW (0x7 << 0) /* Frame stabilization
wait count mask */
#define CICR3_BFW (0xff << 24) /* Beginning-of-frame line clock
wait count mask */
#define CICR3_EFW (0xff << 16) /* End-of-frame line clock
wait count mask */
#define CICR3_VSW (0x3f << 10) /* Vertical sync pulse width mask */
#define CICR3_BFPW (0x3f << 3) /* Beginning-of-frame pixel clock
wait count mask */
#define CICR3_LPF (0x7ff << 0) /* Lines per frame mask */
#define CICR4_MCLK_DLY (0x3 << 24) /* MCLK Data Capture Delay mask */
#define CICR4_PCLK_EN (1 << 23) /* Pixel clock enable */
#define CICR4_PCP (1 << 22) /* Pixel clock polarity */
#define CICR4_HSP (1 << 21) /* Horizontal sync polarity */
#define CICR4_VSP (1 << 20) /* Vertical sync polarity */
#define CICR4_MCLK_EN (1 << 19) /* MCLK enable */
#define CICR4_FR_RATE (0x7 << 8) /* Frame rate mask */
#define CICR4_DIV (0xff << 0) /* Clock divisor mask */
#define CISR_FTO (1 << 15) /* FIFO time-out */
#define CISR_RDAV_2 (1 << 14) /* Channel 2 receive data available */
#define CISR_RDAV_1 (1 << 13) /* Channel 1 receive data available */
#define CISR_RDAV_0 (1 << 12) /* Channel 0 receive data available */
#define CISR_FEMPTY_2 (1 << 11) /* Channel 2 FIFO empty */
#define CISR_FEMPTY_1 (1 << 10) /* Channel 1 FIFO empty */
#define CISR_FEMPTY_0 (1 << 9) /* Channel 0 FIFO empty */
#define CISR_EOL (1 << 8) /* End of line */
#define CISR_PAR_ERR (1 << 7) /* Parity error */
#define CISR_CQD (1 << 6) /* Camera interface quick disable */
#define CISR_CDD (1 << 5) /* Camera interface disable done */
#define CISR_SOF (1 << 4) /* Start of frame */
#define CISR_EOF (1 << 3) /* End of frame */
#define CISR_IFO_2 (1 << 2) /* FIFO overrun for Channel 2 */
#define CISR_IFO_1 (1 << 1) /* FIFO overrun for Channel 1 */
#define CISR_IFO_0 (1 << 0) /* FIFO overrun for Channel 0 */
#define CIFR_FLVL2 (0x7f << 23) /* FIFO 2 level mask */
#define CIFR_FLVL1 (0x7f << 16) /* FIFO 1 level mask */
#define CIFR_FLVL0 (0xff << 8) /* FIFO 0 level mask */
#define CIFR_THL_0 (0x3 << 4) /* Threshold Level for Channel 0 FIFO */
#define CIFR_RESET_F (1 << 3) /* Reset input FIFOs */
#define CIFR_FEN2 (1 << 2) /* FIFO enable for channel 2 */
#define CIFR_FEN1 (1 << 1) /* FIFO enable for channel 1 */
#define CIFR_FEN0 (1 << 0) /* FIFO enable for channel 0 */
#define CICR0_SIM_MP (0 << 24)
#define CICR0_SIM_SP (1 << 24)
#define CICR0_SIM_MS (2 << 24)
#define CICR0_SIM_EP (3 << 24)
#define CICR0_SIM_ES (4 << 24)
#define CICR1_DW_VAL(x) ((x) & CICR1_DW) /* Data bus width */
#define CICR1_PPL_VAL(x) (((x) << 15) & CICR1_PPL) /* Pixels per line */
#define CICR1_COLOR_SP_VAL(x) (((x) << 3) & CICR1_COLOR_SP) /* color space */
#define CICR1_RGB_BPP_VAL(x) (((x) << 7) & CICR1_RGB_BPP) /* bpp for rgb */
#define CICR1_RGBT_CONV_VAL(x) (((x) << 29) & CICR1_RGBT_CONV) /* rgbt conv */
#define CICR2_BLW_VAL(x) (((x) << 24) & CICR2_BLW) /* Beginning-of-line pixel clock wait count */
#define CICR2_ELW_VAL(x) (((x) << 16) & CICR2_ELW) /* End-of-line pixel clock wait count */
#define CICR2_HSW_VAL(x) (((x) << 10) & CICR2_HSW) /* Horizontal sync pulse width */
#define CICR2_BFPW_VAL(x) (((x) << 3) & CICR2_BFPW) /* Beginning-of-frame pixel clock wait count */
#define CICR2_FSW_VAL(x) (((x) << 0) & CICR2_FSW) /* Frame stabilization wait count */
#define CICR3_BFW_VAL(x) (((x) << 24) & CICR3_BFW) /* Beginning-of-frame line clock wait count */
#define CICR3_EFW_VAL(x) (((x) << 16) & CICR3_EFW) /* End-of-frame line clock wait count */
#define CICR3_VSW_VAL(x) (((x) << 11) & CICR3_VSW) /* Vertical sync pulse width */
#define CICR3_LPF_VAL(x) (((x) << 0) & CICR3_LPF) /* Lines per frame */
#define CICR0_IRQ_MASK (CICR0_TOM | CICR0_RDAVM | CICR0_FEM | CICR0_EOLM | \
CICR0_PERRM | CICR0_QDM | CICR0_CDM | CICR0_SOFM | \
CICR0_EOFM | CICR0_FOM)
/*
* YUV422P picture size should be a multiple of 16, so the heuristic aligns
* height, width on 4 byte boundaries to reach the 16 multiple for the size.
*/
#define YUV422P_X_Y_ALIGN 4
#define YUV422P_SIZE_ALIGN YUV422P_X_Y_ALIGN * YUV422P_X_Y_ALIGN
/*
* Structures
*/
enum pxa_camera_active_dma {
DMA_Y = 0x1,
DMA_U = 0x2,
DMA_V = 0x4,
};
/* descriptor needed for the PXA DMA engine */
struct pxa_cam_dma {
dma_addr_t sg_dma;
struct pxa_dma_desc *sg_cpu;
size_t sg_size;
int sglen;
};
/* buffer for one video frame */
struct pxa_buffer {
/* common v4l buffer stuff -- must be first */
struct videobuf_buffer vb;
const struct soc_camera_data_format *fmt;
/* our descriptor lists for Y, U and V channels */
struct pxa_cam_dma dmas[3];
int inwork;
enum pxa_camera_active_dma active_dma;
};
struct pxa_camera_dev {
struct device *dev;
/* PXA27x is only supposed to handle one camera on its Quick Capture
* interface. If anyone ever builds hardware to enable more than
* one camera, they will have to modify this driver too */
struct soc_camera_device *icd;
struct clk *clk;
unsigned int irq;
void __iomem *base;
int channels;
unsigned int dma_chans[3];
struct pxacamera_platform_data *pdata;
struct resource *res;
unsigned long platform_flags;
unsigned long ciclk;
unsigned long mclk;
u32 mclk_divisor;
struct list_head capture;
spinlock_t lock;
struct pxa_buffer *active;
struct pxa_dma_desc *sg_tail[3];
u32 save_cicr[5];
};
static const char *pxa_cam_driver_description = "PXA_Camera";
static unsigned int vid_limit = 16; /* Video memory limit, in Mb */
/*
* Videobuf operations
*/
static int pxa_videobuf_setup(struct videobuf_queue *vq, unsigned int *count,
unsigned int *size)
{
struct soc_camera_device *icd = vq->priv_data;
dev_dbg(&icd->dev, "count=%d, size=%d\n", *count, *size);
*size = roundup(icd->width * icd->height *
((icd->current_fmt->depth + 7) >> 3), 8);
if (0 == *count)
*count = 32;
while (*size * *count > vid_limit * 1024 * 1024)
(*count)--;
return 0;
}
static void free_buffer(struct videobuf_queue *vq, struct pxa_buffer *buf)
{
struct soc_camera_device *icd = vq->priv_data;
struct soc_camera_host *ici = to_soc_camera_host(icd->dev.parent);
struct pxa_camera_dev *pcdev = ici->priv;
struct videobuf_dmabuf *dma = videobuf_to_dma(&buf->vb);
int i;
BUG_ON(in_interrupt());
dev_dbg(&icd->dev, "%s (vb=0x%p) 0x%08lx %d\n", __func__,
&buf->vb, buf->vb.baddr, buf->vb.bsize);
/* This waits until this buffer is out of danger, i.e., until it is no
* longer in STATE_QUEUED or STATE_ACTIVE */
videobuf_waiton(&buf->vb, 0, 0);
videobuf_dma_unmap(vq, dma);
videobuf_dma_free(dma);
for (i = 0; i < ARRAY_SIZE(buf->dmas); i++) {
if (buf->dmas[i].sg_cpu)
dma_free_coherent(pcdev->dev, buf->dmas[i].sg_size,
buf->dmas[i].sg_cpu,
buf->dmas[i].sg_dma);
buf->dmas[i].sg_cpu = NULL;
}
buf->vb.state = VIDEOBUF_NEEDS_INIT;
}
static int calculate_dma_sglen(struct scatterlist *sglist, int sglen,
int sg_first_ofs, int size)
{
int i, offset, dma_len, xfer_len;
struct scatterlist *sg;
offset = sg_first_ofs;
for_each_sg(sglist, sg, sglen, i) {
dma_len = sg_dma_len(sg);
/* PXA27x Developer's Manual 27.4.4.1: round up to 8 bytes */
xfer_len = roundup(min(dma_len - offset, size), 8);
size = max(0, size - xfer_len);
offset = 0;
if (size == 0)
break;
}
BUG_ON(size != 0);
return i + 1;
}
/**
* pxa_init_dma_channel - init dma descriptors
* @pcdev: pxa camera device
* @buf: pxa buffer to find pxa dma channel
* @dma: dma video buffer
* @channel: dma channel (0 => 'Y', 1 => 'U', 2 => 'V')
* @cibr: camera Receive Buffer Register
* @size: bytes to transfer
* @sg_first: first element of sg_list
* @sg_first_ofs: offset in first element of sg_list
*
* Prepares the pxa dma descriptors to transfer one camera channel.
* Beware sg_first and sg_first_ofs are both input and output parameters.
*
* Returns 0 or -ENOMEM if no coherent memory is available
*/
static int pxa_init_dma_channel(struct pxa_camera_dev *pcdev,
struct pxa_buffer *buf,
struct videobuf_dmabuf *dma, int channel,
int cibr, int size,
struct scatterlist **sg_first, int *sg_first_ofs)
{
struct pxa_cam_dma *pxa_dma = &buf->dmas[channel];
struct scatterlist *sg;
int i, offset, sglen;
int dma_len = 0, xfer_len = 0;
if (pxa_dma->sg_cpu)
dma_free_coherent(pcdev->dev, pxa_dma->sg_size,
pxa_dma->sg_cpu, pxa_dma->sg_dma);
sglen = calculate_dma_sglen(*sg_first, dma->sglen,
*sg_first_ofs, size);
pxa_dma->sg_size = (sglen + 1) * sizeof(struct pxa_dma_desc);
pxa_dma->sg_cpu = dma_alloc_coherent(pcdev->dev, pxa_dma->sg_size,
&pxa_dma->sg_dma, GFP_KERNEL);
if (!pxa_dma->sg_cpu)
return -ENOMEM;
pxa_dma->sglen = sglen;
offset = *sg_first_ofs;
dev_dbg(pcdev->dev, "DMA: sg_first=%p, sglen=%d, ofs=%d, dma.desc=%x\n",
*sg_first, sglen, *sg_first_ofs, pxa_dma->sg_dma);
for_each_sg(*sg_first, sg, sglen, i) {
dma_len = sg_dma_len(sg);
/* PXA27x Developer's Manual 27.4.4.1: round up to 8 bytes */
xfer_len = roundup(min(dma_len - offset, size), 8);
size = max(0, size - xfer_len);
pxa_dma->sg_cpu[i].dsadr = pcdev->res->start + cibr;
pxa_dma->sg_cpu[i].dtadr = sg_dma_address(sg) + offset;
pxa_dma->sg_cpu[i].dcmd =
DCMD_FLOWSRC | DCMD_BURST8 | DCMD_INCTRGADDR | xfer_len;
pxa_dma->sg_cpu[i].ddadr =
pxa_dma->sg_dma + (i + 1) * sizeof(struct pxa_dma_desc);
dev_vdbg(pcdev->dev, "DMA: desc.%08x->@phys=0x%08x, len=%d\n",
pxa_dma->sg_dma + i * sizeof(struct pxa_dma_desc),
sg_dma_address(sg) + offset, xfer_len);
offset = 0;
if (size == 0)
break;
}
pxa_dma->sg_cpu[sglen - 1].ddadr = DDADR_STOP;
pxa_dma->sg_cpu[sglen - 1].dcmd |= DCMD_ENDIRQEN;
/*
* Handle 1 special case :
* - in 3 planes (YUV422P format), we might finish with xfer_len equal
* to dma_len (end on PAGE boundary). In this case, the sg element
* for next plane should be the next after the last used to store the
* last scatter gather RAM page
*/
if (xfer_len >= dma_len) {
*sg_first_ofs = xfer_len - dma_len;
*sg_first = sg_next(sg);
} else {
*sg_first_ofs = xfer_len;
*sg_first = sg;
}
return 0;
}
static int pxa_videobuf_prepare(struct videobuf_queue *vq,
struct videobuf_buffer *vb, enum v4l2_field field)
{
struct soc_camera_device *icd = vq->priv_data;
struct soc_camera_host *ici = to_soc_camera_host(icd->dev.parent);
struct pxa_camera_dev *pcdev = ici->priv;
struct pxa_buffer *buf = container_of(vb, struct pxa_buffer, vb);
int ret;
int size_y, size_u = 0, size_v = 0;
dev_dbg(&icd->dev, "%s (vb=0x%p) 0x%08lx %d\n", __func__,
vb, vb->baddr, vb->bsize);
/* Added list head initialization on alloc */
WARN_ON(!list_empty(&vb->queue));
#ifdef DEBUG
/* This can be useful if you want to see if we actually fill
* the buffer with something */
memset((void *)vb->baddr, 0xaa, vb->bsize);
#endif
BUG_ON(NULL == icd->current_fmt);
/* I think, in buf_prepare you only have to protect global data,
* the actual buffer is yours */
buf->inwork = 1;
if (buf->fmt != icd->current_fmt ||
vb->width != icd->width ||
vb->height != icd->height ||
vb->field != field) {
buf->fmt = icd->current_fmt;
vb->width = icd->width;
vb->height = icd->height;
vb->field = field;
vb->state = VIDEOBUF_NEEDS_INIT;
}
vb->size = vb->width * vb->height * ((buf->fmt->depth + 7) >> 3);
if (0 != vb->baddr && vb->bsize < vb->size) {
ret = -EINVAL;
goto out;
}
if (vb->state == VIDEOBUF_NEEDS_INIT) {
int size = vb->size;
int next_ofs = 0;
struct videobuf_dmabuf *dma = videobuf_to_dma(vb);
struct scatterlist *sg;
ret = videobuf_iolock(vq, vb, NULL);
if (ret)
goto fail;
if (pcdev->channels == 3) {
size_y = size / 2;
size_u = size_v = size / 4;
} else {
size_y = size;
}
sg = dma->sglist;
/* init DMA for Y channel */
ret = pxa_init_dma_channel(pcdev, buf, dma, 0, CIBR0, size_y,
&sg, &next_ofs);
if (ret) {
dev_err(pcdev->dev,
"DMA initialization for Y/RGB failed\n");
goto fail;
}
/* init DMA for U channel */
if (size_u)
ret = pxa_init_dma_channel(pcdev, buf, dma, 1, CIBR1,
size_u, &sg, &next_ofs);
if (ret) {
dev_err(pcdev->dev,
"DMA initialization for U failed\n");
goto fail_u;
}
/* init DMA for V channel */
if (size_v)
ret = pxa_init_dma_channel(pcdev, buf, dma, 2, CIBR2,
size_v, &sg, &next_ofs);
if (ret) {
dev_err(pcdev->dev,
"DMA initialization for V failed\n");
goto fail_v;
}
vb->state = VIDEOBUF_PREPARED;
}
buf->inwork = 0;
buf->active_dma = DMA_Y;
if (pcdev->channels == 3)
buf->active_dma |= DMA_U | DMA_V;
return 0;
fail_v:
dma_free_coherent(pcdev->dev, buf->dmas[1].sg_size,
buf->dmas[1].sg_cpu, buf->dmas[1].sg_dma);
fail_u:
dma_free_coherent(pcdev->dev, buf->dmas[0].sg_size,
buf->dmas[0].sg_cpu, buf->dmas[0].sg_dma);
fail:
free_buffer(vq, buf);
out:
buf->inwork = 0;
return ret;
}
static void pxa_videobuf_queue(struct videobuf_queue *vq,
struct videobuf_buffer *vb)
{
struct soc_camera_device *icd = vq->priv_data;
struct soc_camera_host *ici = to_soc_camera_host(icd->dev.parent);
struct pxa_camera_dev *pcdev = ici->priv;
struct pxa_buffer *buf = container_of(vb, struct pxa_buffer, vb);
struct pxa_buffer *active;
unsigned long flags;
int i;
dev_dbg(&icd->dev, "%s (vb=0x%p) 0x%08lx %d\n", __func__,
vb, vb->baddr, vb->bsize);
spin_lock_irqsave(&pcdev->lock, flags);
list_add_tail(&vb->queue, &pcdev->capture);
vb->state = VIDEOBUF_ACTIVE;
active = pcdev->active;
if (!active) {
unsigned long cifr, cicr0;
cifr = __raw_readl(pcdev->base + CIFR) | CIFR_RESET_F;
__raw_writel(cifr, pcdev->base + CIFR);
for (i = 0; i < pcdev->channels; i++) {
DDADR(pcdev->dma_chans[i]) = buf->dmas[i].sg_dma;
DCSR(pcdev->dma_chans[i]) = DCSR_RUN;
pcdev->sg_tail[i] = buf->dmas[i].sg_cpu + buf->dmas[i].sglen - 1;
}
pcdev->active = buf;
cicr0 = __raw_readl(pcdev->base + CICR0) | CICR0_ENB;
__raw_writel(cicr0, pcdev->base + CICR0);
} else {
struct pxa_cam_dma *buf_dma;
struct pxa_cam_dma *act_dma;
int nents;
for (i = 0; i < pcdev->channels; i++) {
buf_dma = &buf->dmas[i];
act_dma = &active->dmas[i];
nents = buf_dma->sglen;
/* Stop DMA engine */
DCSR(pcdev->dma_chans[i]) = 0;
/* Add the descriptors we just initialized to
the currently running chain */
pcdev->sg_tail[i]->ddadr = buf_dma->sg_dma;
pcdev->sg_tail[i] = buf_dma->sg_cpu + buf_dma->sglen - 1;
/* Setup a dummy descriptor with the DMA engines current
* state
*/
buf_dma->sg_cpu[nents].dsadr =
pcdev->res->start + 0x28 + i*8; /* CIBRx */
buf_dma->sg_cpu[nents].dtadr =
DTADR(pcdev->dma_chans[i]);
buf_dma->sg_cpu[nents].dcmd =
DCMD(pcdev->dma_chans[i]);
if (DDADR(pcdev->dma_chans[i]) == DDADR_STOP) {
/* The DMA engine is on the last
descriptor, set the next descriptors
address to the descriptors we just
initialized */
buf_dma->sg_cpu[nents].ddadr = buf_dma->sg_dma;
} else {
buf_dma->sg_cpu[nents].ddadr =
DDADR(pcdev->dma_chans[i]);
}
/* The next descriptor is the dummy descriptor */
DDADR(pcdev->dma_chans[i]) = buf_dma->sg_dma + nents *
sizeof(struct pxa_dma_desc);
DCSR(pcdev->dma_chans[i]) = DCSR_RUN;
}
}
spin_unlock_irqrestore(&pcdev->lock, flags);
}
static void pxa_videobuf_release(struct videobuf_queue *vq,
struct videobuf_buffer *vb)
{
struct pxa_buffer *buf = container_of(vb, struct pxa_buffer, vb);
#ifdef DEBUG
struct soc_camera_device *icd = vq->priv_data;
dev_dbg(&icd->dev, "%s (vb=0x%p) 0x%08lx %d\n", __func__,
vb, vb->baddr, vb->bsize);
switch (vb->state) {
case VIDEOBUF_ACTIVE:
dev_dbg(&icd->dev, "%s (active)\n", __func__);
break;
case VIDEOBUF_QUEUED:
dev_dbg(&icd->dev, "%s (queued)\n", __func__);
break;
case VIDEOBUF_PREPARED:
dev_dbg(&icd->dev, "%s (prepared)\n", __func__);
break;
default:
dev_dbg(&icd->dev, "%s (unknown)\n", __func__);
break;
}
#endif
free_buffer(vq, buf);
}
static void pxa_camera_wakeup(struct pxa_camera_dev *pcdev,
struct videobuf_buffer *vb,
struct pxa_buffer *buf)
{
unsigned long cicr0;
/* _init is used to debug races, see comment in pxa_camera_reqbufs() */
list_del_init(&vb->queue);
vb->state = VIDEOBUF_DONE;
do_gettimeofday(&vb->ts);
vb->field_count++;
wake_up(&vb->done);
if (list_empty(&pcdev->capture)) {
pcdev->active = NULL;
DCSR(pcdev->dma_chans[0]) = 0;
DCSR(pcdev->dma_chans[1]) = 0;
DCSR(pcdev->dma_chans[2]) = 0;
cicr0 = __raw_readl(pcdev->base + CICR0) & ~CICR0_ENB;
__raw_writel(cicr0, pcdev->base + CICR0);
return;
}
pcdev->active = list_entry(pcdev->capture.next,
struct pxa_buffer, vb.queue);
}
static void pxa_camera_dma_irq(int channel, struct pxa_camera_dev *pcdev,
enum pxa_camera_active_dma act_dma)
{
struct pxa_buffer *buf;
unsigned long flags;
u32 status, camera_status, overrun;
struct videobuf_buffer *vb;
unsigned long cifr, cicr0;
spin_lock_irqsave(&pcdev->lock, flags);
status = DCSR(channel);
DCSR(channel) = status | DCSR_ENDINTR;
if (status & DCSR_BUSERR) {
dev_err(pcdev->dev, "DMA Bus Error IRQ!\n");
goto out;
}
if (!(status & DCSR_ENDINTR)) {
dev_err(pcdev->dev, "Unknown DMA IRQ source, "
"status: 0x%08x\n", status);
goto out;
}
if (!pcdev->active) {
dev_err(pcdev->dev, "DMA End IRQ with no active buffer!\n");
goto out;
}
camera_status = __raw_readl(pcdev->base + CISR);
overrun = CISR_IFO_0;
if (pcdev->channels == 3)
overrun |= CISR_IFO_1 | CISR_IFO_2;
if (camera_status & overrun) {
dev_dbg(pcdev->dev, "FIFO overrun! CISR: %x\n", camera_status);
/* Stop the Capture Interface */
cicr0 = __raw_readl(pcdev->base + CICR0) & ~CICR0_ENB;
__raw_writel(cicr0, pcdev->base + CICR0);
/* Stop DMA */
DCSR(channel) = 0;
/* Reset the FIFOs */
cifr = __raw_readl(pcdev->base + CIFR) | CIFR_RESET_F;
__raw_writel(cifr, pcdev->base + CIFR);
/* Enable End-Of-Frame Interrupt */
cicr0 &= ~CICR0_EOFM;
__raw_writel(cicr0, pcdev->base + CICR0);
/* Restart the Capture Interface */
__raw_writel(cicr0 | CICR0_ENB, pcdev->base + CICR0);
goto out;
}
vb = &pcdev->active->vb;
buf = container_of(vb, struct pxa_buffer, vb);
WARN_ON(buf->inwork || list_empty(&vb->queue));
dev_dbg(pcdev->dev, "%s (vb=0x%p) 0x%08lx %d\n", __func__,
vb, vb->baddr, vb->bsize);
buf->active_dma &= ~act_dma;
if (!buf->active_dma)
pxa_camera_wakeup(pcdev, vb, buf);
out:
spin_unlock_irqrestore(&pcdev->lock, flags);
}
static void pxa_camera_dma_irq_y(int channel, void *data)
{
struct pxa_camera_dev *pcdev = data;
pxa_camera_dma_irq(channel, pcdev, DMA_Y);
}
static void pxa_camera_dma_irq_u(int channel, void *data)
{
struct pxa_camera_dev *pcdev = data;
pxa_camera_dma_irq(channel, pcdev, DMA_U);
}
static void pxa_camera_dma_irq_v(int channel, void *data)
{
struct pxa_camera_dev *pcdev = data;
pxa_camera_dma_irq(channel, pcdev, DMA_V);
}
static struct videobuf_queue_ops pxa_videobuf_ops = {
.buf_setup = pxa_videobuf_setup,
.buf_prepare = pxa_videobuf_prepare,
.buf_queue = pxa_videobuf_queue,
.buf_release = pxa_videobuf_release,
};
static void pxa_camera_init_videobuf(struct videobuf_queue *q,
struct soc_camera_device *icd)
{
struct soc_camera_host *ici = to_soc_camera_host(icd->dev.parent);
struct pxa_camera_dev *pcdev = ici->priv;
/* We must pass NULL as dev pointer, then all pci_* dma operations
* transform to normal dma_* ones. */
videobuf_queue_sg_init(q, &pxa_videobuf_ops, NULL, &pcdev->lock,
V4L2_BUF_TYPE_VIDEO_CAPTURE, V4L2_FIELD_NONE,
sizeof(struct pxa_buffer), icd);
}
static u32 mclk_get_divisor(struct pxa_camera_dev *pcdev)
{
unsigned long mclk = pcdev->mclk;
u32 div;
unsigned long lcdclk;
lcdclk = clk_get_rate(pcdev->clk);
pcdev->ciclk = lcdclk;
/* mclk <= ciclk / 4 (27.4.2) */
if (mclk > lcdclk / 4) {
mclk = lcdclk / 4;
dev_warn(pcdev->dev, "Limiting master clock to %lu\n", mclk);
}
/* We verify mclk != 0, so if anyone breaks it, here comes their Oops */
div = (lcdclk + 2 * mclk - 1) / (2 * mclk) - 1;
/* If we're not supplying MCLK, leave it at 0 */
if (pcdev->platform_flags & PXA_CAMERA_MCLK_EN)
pcdev->mclk = lcdclk / (2 * (div + 1));
dev_dbg(pcdev->dev, "LCD clock %luHz, target freq %luHz, "
"divisor %u\n", lcdclk, mclk, div);
return div;
}
static void recalculate_fifo_timeout(struct pxa_camera_dev *pcdev,
unsigned long pclk)
{
/* We want a timeout > 1 pixel time, not ">=" */
u32 ciclk_per_pixel = pcdev->ciclk / pclk + 1;
__raw_writel(ciclk_per_pixel, pcdev->base + CITOR);
}
static void pxa_camera_activate(struct pxa_camera_dev *pcdev)
{
struct pxacamera_platform_data *pdata = pcdev->pdata;
u32 cicr4 = 0;
dev_dbg(pcdev->dev, "Registered platform device at %p data %p\n",
pcdev, pdata);
if (pdata && pdata->init) {
dev_dbg(pcdev->dev, "%s: Init gpios\n", __func__);
pdata->init(pcdev->dev);
}
/* disable all interrupts */
__raw_writel(0x3ff, pcdev->base + CICR0);
if (pcdev->platform_flags & PXA_CAMERA_PCLK_EN)
cicr4 |= CICR4_PCLK_EN;
if (pcdev->platform_flags & PXA_CAMERA_MCLK_EN)
cicr4 |= CICR4_MCLK_EN;
if (pcdev->platform_flags & PXA_CAMERA_PCP)
cicr4 |= CICR4_PCP;
if (pcdev->platform_flags & PXA_CAMERA_HSP)
cicr4 |= CICR4_HSP;
if (pcdev->platform_flags & PXA_CAMERA_VSP)
cicr4 |= CICR4_VSP;
__raw_writel(pcdev->mclk_divisor | cicr4, pcdev->base + CICR4);
if (pcdev->platform_flags & PXA_CAMERA_MCLK_EN)
/* Initialise the timeout under the assumption pclk = mclk */
recalculate_fifo_timeout(pcdev, pcdev->mclk);
else
/* "Safe default" - 13MHz */
recalculate_fifo_timeout(pcdev, 13000000);
clk_enable(pcdev->clk);
}
static void pxa_camera_deactivate(struct pxa_camera_dev *pcdev)
{
clk_disable(pcdev->clk);
}
static irqreturn_t pxa_camera_irq(int irq, void *data)
{
struct pxa_camera_dev *pcdev = data;
unsigned long status, cicr0;
status = __raw_readl(pcdev->base + CISR);
dev_dbg(pcdev->dev, "Camera interrupt status 0x%lx\n", status);
if (!status)
return IRQ_NONE;
__raw_writel(status, pcdev->base + CISR);
if (status & CISR_EOF) {
int i;
for (i = 0; i < pcdev->channels; i++) {
DDADR(pcdev->dma_chans[i]) =
pcdev->active->dmas[i].sg_dma;
DCSR(pcdev->dma_chans[i]) = DCSR_RUN;
}
cicr0 = __raw_readl(pcdev->base + CICR0) | CICR0_EOFM;
__raw_writel(cicr0, pcdev->base + CICR0);
}
return IRQ_HANDLED;
}
/*
* The following two functions absolutely depend on the fact, that
* there can be only one camera on PXA quick capture interface
* Called with .video_lock held
*/
static int pxa_camera_add_device(struct soc_camera_device *icd)
{
struct soc_camera_host *ici = to_soc_camera_host(icd->dev.parent);
struct pxa_camera_dev *pcdev = ici->priv;
int ret;
if (pcdev->icd) {
ret = -EBUSY;
goto ebusy;
}
dev_info(&icd->dev, "PXA Camera driver attached to camera %d\n",
icd->devnum);
pxa_camera_activate(pcdev);
ret = icd->ops->init(icd);
if (!ret)
pcdev->icd = icd;
ebusy:
return ret;
}
/* Called with .video_lock held */
static void pxa_camera_remove_device(struct soc_camera_device *icd)
{
struct soc_camera_host *ici = to_soc_camera_host(icd->dev.parent);
struct pxa_camera_dev *pcdev = ici->priv;
BUG_ON(icd != pcdev->icd);
dev_info(&icd->dev, "PXA Camera driver detached from camera %d\n",
icd->devnum);
/* disable capture, disable interrupts */
__raw_writel(0x3ff, pcdev->base + CICR0);
/* Stop DMA engine */
DCSR(pcdev->dma_chans[0]) = 0;
DCSR(pcdev->dma_chans[1]) = 0;
DCSR(pcdev->dma_chans[2]) = 0;
icd->ops->release(icd);
pxa_camera_deactivate(pcdev);
pcdev->icd = NULL;
}
static int test_platform_param(struct pxa_camera_dev *pcdev,
unsigned char buswidth, unsigned long *flags)
{
/*
* Platform specified synchronization and pixel clock polarities are
* only a recommendation and are only used during probing. The PXA270
* quick capture interface supports both.
*/
*flags = (pcdev->platform_flags & PXA_CAMERA_MASTER ?
SOCAM_MASTER : SOCAM_SLAVE) |
SOCAM_HSYNC_ACTIVE_HIGH |
SOCAM_HSYNC_ACTIVE_LOW |
SOCAM_VSYNC_ACTIVE_HIGH |
SOCAM_VSYNC_ACTIVE_LOW |
SOCAM_DATA_ACTIVE_HIGH |
SOCAM_PCLK_SAMPLE_RISING |
SOCAM_PCLK_SAMPLE_FALLING;
/* If requested data width is supported by the platform, use it */
switch (buswidth) {
case 10:
if (!(pcdev->platform_flags & PXA_CAMERA_DATAWIDTH_10))
return -EINVAL;
*flags |= SOCAM_DATAWIDTH_10;
break;
case 9:
if (!(pcdev->platform_flags & PXA_CAMERA_DATAWIDTH_9))
return -EINVAL;
*flags |= SOCAM_DATAWIDTH_9;
break;
case 8:
if (!(pcdev->platform_flags & PXA_CAMERA_DATAWIDTH_8))
return -EINVAL;
*flags |= SOCAM_DATAWIDTH_8;
break;
default:
return -EINVAL;
}
return 0;
}
static int pxa_camera_set_bus_param(struct soc_camera_device *icd, __u32 pixfmt)
{
struct soc_camera_host *ici = to_soc_camera_host(icd->dev.parent);
struct pxa_camera_dev *pcdev = ici->priv;
unsigned long dw, bpp, bus_flags, camera_flags, common_flags;
u32 cicr0, cicr1, cicr2, cicr3, cicr4 = 0;
int ret = test_platform_param(pcdev, icd->buswidth, &bus_flags);
if (ret < 0)
return ret;
camera_flags = icd->ops->query_bus_param(icd);
common_flags = soc_camera_bus_param_compatible(camera_flags, bus_flags);
if (!common_flags)
return -EINVAL;
pcdev->channels = 1;
/* Make choises, based on platform preferences */
if ((common_flags & SOCAM_HSYNC_ACTIVE_HIGH) &&
(common_flags & SOCAM_HSYNC_ACTIVE_LOW)) {
if (pcdev->platform_flags & PXA_CAMERA_HSP)
common_flags &= ~SOCAM_HSYNC_ACTIVE_HIGH;
else
common_flags &= ~SOCAM_HSYNC_ACTIVE_LOW;
}
if ((common_flags & SOCAM_VSYNC_ACTIVE_HIGH) &&
(common_flags & SOCAM_VSYNC_ACTIVE_LOW)) {
if (pcdev->platform_flags & PXA_CAMERA_VSP)
common_flags &= ~SOCAM_VSYNC_ACTIVE_HIGH;
else
common_flags &= ~SOCAM_VSYNC_ACTIVE_LOW;
}
if ((common_flags & SOCAM_PCLK_SAMPLE_RISING) &&
(common_flags & SOCAM_PCLK_SAMPLE_FALLING)) {
if (pcdev->platform_flags & PXA_CAMERA_PCP)
common_flags &= ~SOCAM_PCLK_SAMPLE_RISING;
else
common_flags &= ~SOCAM_PCLK_SAMPLE_FALLING;
}
ret = icd->ops->set_bus_param(icd, common_flags);
if (ret < 0)
return ret;
/* Datawidth is now guaranteed to be equal to one of the three values.
* We fix bit-per-pixel equal to data-width... */
switch (common_flags & SOCAM_DATAWIDTH_MASK) {
case SOCAM_DATAWIDTH_10:
dw = 4;
bpp = 0x40;
break;
case SOCAM_DATAWIDTH_9:
dw = 3;
bpp = 0x20;
break;
default:
/* Actually it can only be 8 now,
* default is just to silence compiler warnings */
case SOCAM_DATAWIDTH_8:
dw = 2;
bpp = 0;
}
if (pcdev->platform_flags & PXA_CAMERA_PCLK_EN)
cicr4 |= CICR4_PCLK_EN;
if (pcdev->platform_flags & PXA_CAMERA_MCLK_EN)
cicr4 |= CICR4_MCLK_EN;
if (common_flags & SOCAM_PCLK_SAMPLE_FALLING)
cicr4 |= CICR4_PCP;
if (common_flags & SOCAM_HSYNC_ACTIVE_LOW)
cicr4 |= CICR4_HSP;
if (common_flags & SOCAM_VSYNC_ACTIVE_LOW)
cicr4 |= CICR4_VSP;
cicr0 = __raw_readl(pcdev->base + CICR0);
if (cicr0 & CICR0_ENB)
__raw_writel(cicr0 & ~CICR0_ENB, pcdev->base + CICR0);
cicr1 = CICR1_PPL_VAL(icd->width - 1) | bpp | dw;
switch (pixfmt) {
case V4L2_PIX_FMT_YUV422P:
pcdev->channels = 3;
cicr1 |= CICR1_YCBCR_F;
/*
* Normally, pxa bus wants as input UYVY format. We allow all
* reorderings of the YUV422 format, as no processing is done,
* and the YUV stream is just passed through without any
* transformation. Note that UYVY is the only format that
* should be used if pxa framebuffer Overlay2 is used.
*/
case V4L2_PIX_FMT_UYVY:
case V4L2_PIX_FMT_VYUY:
case V4L2_PIX_FMT_YUYV:
case V4L2_PIX_FMT_YVYU:
cicr1 |= CICR1_COLOR_SP_VAL(2);
break;
case V4L2_PIX_FMT_RGB555:
cicr1 |= CICR1_RGB_BPP_VAL(1) | CICR1_RGBT_CONV_VAL(2) |
CICR1_TBIT | CICR1_COLOR_SP_VAL(1);
break;
case V4L2_PIX_FMT_RGB565:
cicr1 |= CICR1_COLOR_SP_VAL(1) | CICR1_RGB_BPP_VAL(2);
break;
}
cicr2 = 0;
cicr3 = CICR3_LPF_VAL(icd->height - 1) |
CICR3_BFW_VAL(min((unsigned short)255, icd->y_skip_top));
cicr4 |= pcdev->mclk_divisor;
__raw_writel(cicr1, pcdev->base + CICR1);
__raw_writel(cicr2, pcdev->base + CICR2);
__raw_writel(cicr3, pcdev->base + CICR3);
__raw_writel(cicr4, pcdev->base + CICR4);
/* CIF interrupts are not used, only DMA */
cicr0 = (cicr0 & CICR0_ENB) | (pcdev->platform_flags & PXA_CAMERA_MASTER ?
CICR0_SIM_MP : (CICR0_SL_CAP_EN | CICR0_SIM_SP));
cicr0 |= CICR0_DMAEN | CICR0_IRQ_MASK;
__raw_writel(cicr0, pcdev->base + CICR0);
return 0;
}
static int pxa_camera_try_bus_param(struct soc_camera_device *icd,
unsigned char buswidth)
{
struct soc_camera_host *ici = to_soc_camera_host(icd->dev.parent);
struct pxa_camera_dev *pcdev = ici->priv;
unsigned long bus_flags, camera_flags;
int ret = test_platform_param(pcdev, buswidth, &bus_flags);
if (ret < 0)
return ret;
camera_flags = icd->ops->query_bus_param(icd);
return soc_camera_bus_param_compatible(camera_flags, bus_flags) ? 0 : -EINVAL;
}
static const struct soc_camera_data_format pxa_camera_formats[] = {
{
.name = "Planar YUV422 16 bit",
.depth = 16,
.fourcc = V4L2_PIX_FMT_YUV422P,
.colorspace = V4L2_COLORSPACE_JPEG,
},
};
static bool buswidth_supported(struct soc_camera_device *icd, int depth)
{
struct soc_camera_host *ici = to_soc_camera_host(icd->dev.parent);
struct pxa_camera_dev *pcdev = ici->priv;
switch (depth) {
case 8:
return !!(pcdev->platform_flags & PXA_CAMERA_DATAWIDTH_8);
case 9:
return !!(pcdev->platform_flags & PXA_CAMERA_DATAWIDTH_9);
case 10:
return !!(pcdev->platform_flags & PXA_CAMERA_DATAWIDTH_10);
}
return false;
}
static int required_buswidth(const struct soc_camera_data_format *fmt)
{
switch (fmt->fourcc) {
case V4L2_PIX_FMT_UYVY:
case V4L2_PIX_FMT_VYUY:
case V4L2_PIX_FMT_YUYV:
case V4L2_PIX_FMT_YVYU:
case V4L2_PIX_FMT_RGB565:
case V4L2_PIX_FMT_RGB555:
return 8;
default:
return fmt->depth;
}
}
static int pxa_camera_get_formats(struct soc_camera_device *icd, int idx,
struct soc_camera_format_xlate *xlate)
{
struct soc_camera_host *ici = to_soc_camera_host(icd->dev.parent);
int formats = 0, buswidth, ret;
buswidth = required_buswidth(icd->formats + idx);
if (!buswidth_supported(icd, buswidth))
return 0;
ret = pxa_camera_try_bus_param(icd, buswidth);
if (ret < 0)
return 0;
switch (icd->formats[idx].fourcc) {
case V4L2_PIX_FMT_UYVY:
formats++;
if (xlate) {
xlate->host_fmt = &pxa_camera_formats[0];
xlate->cam_fmt = icd->formats + idx;
xlate->buswidth = buswidth;
xlate++;
dev_dbg(&ici->dev, "Providing format %s using %s\n",
pxa_camera_formats[0].name,
icd->formats[idx].name);
}
case V4L2_PIX_FMT_VYUY:
case V4L2_PIX_FMT_YUYV:
case V4L2_PIX_FMT_YVYU:
case V4L2_PIX_FMT_RGB565:
case V4L2_PIX_FMT_RGB555:
formats++;
if (xlate) {
xlate->host_fmt = icd->formats + idx;
xlate->cam_fmt = icd->formats + idx;
xlate->buswidth = buswidth;
xlate++;
dev_dbg(&ici->dev, "Providing format %s packed\n",
icd->formats[idx].name);
}
break;
default:
/* Generic pass-through */
formats++;
if (xlate) {
xlate->host_fmt = icd->formats + idx;
xlate->cam_fmt = icd->formats + idx;
xlate->buswidth = icd->formats[idx].depth;
xlate++;
dev_dbg(&ici->dev,
"Providing format %s in pass-through mode\n",
icd->formats[idx].name);
}
}
return formats;
}
static int pxa_camera_set_crop(struct soc_camera_device *icd,
struct v4l2_rect *rect)
{
struct soc_camera_host *ici = to_soc_camera_host(icd->dev.parent);
struct pxa_camera_dev *pcdev = ici->priv;
struct soc_camera_sense sense = {
.master_clock = pcdev->mclk,
.pixel_clock_max = pcdev->ciclk / 4,
};
int ret;
/* If PCLK is used to latch data from the sensor, check sense */
if (pcdev->platform_flags & PXA_CAMERA_PCLK_EN)
icd->sense = &sense;
ret = icd->ops->set_crop(icd, rect);
icd->sense = NULL;
if (ret < 0) {
dev_warn(&ici->dev, "Failed to crop to %ux%u@%u:%u\n",
rect->width, rect->height, rect->left, rect->top);
} else if (sense.flags & SOCAM_SENSE_PCLK_CHANGED) {
if (sense.pixel_clock > sense.pixel_clock_max) {
dev_err(&ici->dev,
"pixel clock %lu set by the camera too high!",
sense.pixel_clock);
return -EIO;
}
recalculate_fifo_timeout(pcdev, sense.pixel_clock);
}
return ret;
}
static int pxa_camera_set_fmt(struct soc_camera_device *icd,
struct v4l2_format *f)
{
struct soc_camera_host *ici = to_soc_camera_host(icd->dev.parent);
struct pxa_camera_dev *pcdev = ici->priv;
const struct soc_camera_data_format *cam_fmt = NULL;
const struct soc_camera_format_xlate *xlate = NULL;
struct soc_camera_sense sense = {
.master_clock = pcdev->mclk,
.pixel_clock_max = pcdev->ciclk / 4,
};
struct v4l2_pix_format *pix = &f->fmt.pix;
struct v4l2_format cam_f = *f;
int ret;
xlate = soc_camera_xlate_by_fourcc(icd, pix->pixelformat);
if (!xlate) {
dev_warn(&ici->dev, "Format %x not found\n", pix->pixelformat);
return -EINVAL;
}
cam_fmt = xlate->cam_fmt;
/* If PCLK is used to latch data from the sensor, check sense */
if (pcdev->platform_flags & PXA_CAMERA_PCLK_EN)
icd->sense = &sense;
cam_f.fmt.pix.pixelformat = cam_fmt->fourcc;
ret = icd->ops->set_fmt(icd, &cam_f);
icd->sense = NULL;
if (ret < 0) {
dev_warn(&ici->dev, "Failed to configure for format %x\n",
pix->pixelformat);
} else if (sense.flags & SOCAM_SENSE_PCLK_CHANGED) {
if (sense.pixel_clock > sense.pixel_clock_max) {
dev_err(&ici->dev,
"pixel clock %lu set by the camera too high!",
sense.pixel_clock);
return -EIO;
}
recalculate_fifo_timeout(pcdev, sense.pixel_clock);
}
if (!ret) {
icd->buswidth = xlate->buswidth;
icd->current_fmt = xlate->host_fmt;
}
return ret;
}
static int pxa_camera_try_fmt(struct soc_camera_device *icd,
struct v4l2_format *f)
{
struct soc_camera_host *ici = to_soc_camera_host(icd->dev.parent);
const struct soc_camera_format_xlate *xlate;
struct v4l2_pix_format *pix = &f->fmt.pix;
__u32 pixfmt = pix->pixelformat;
enum v4l2_field field;
int ret;
xlate = soc_camera_xlate_by_fourcc(icd, pixfmt);
if (!xlate) {
dev_warn(&ici->dev, "Format %x not found\n", pixfmt);
return -EINVAL;
}
/* limit to pxa hardware capabilities */
if (pix->height < 32)
pix->height = 32;
if (pix->height > 2048)
pix->height = 2048;
if (pix->width < 48)
pix->width = 48;
if (pix->width > 2048)
pix->width = 2048;
pix->width &= ~0x01;
/*
* YUV422P planar format requires images size to be a 16 bytes
* multiple. If not, zeros will be inserted between Y and U planes, and
* U and V planes, and YUV422P standard would be violated.
*/
if (xlate->host_fmt->fourcc == V4L2_PIX_FMT_YUV422P) {
if (!IS_ALIGNED(pix->width * pix->height, YUV422P_SIZE_ALIGN))
pix->height = ALIGN(pix->height, YUV422P_X_Y_ALIGN);
if (!IS_ALIGNED(pix->width * pix->height, YUV422P_SIZE_ALIGN))
pix->width = ALIGN(pix->width, YUV422P_X_Y_ALIGN);
}
pix->bytesperline = pix->width *
DIV_ROUND_UP(xlate->host_fmt->depth, 8);
pix->sizeimage = pix->height * pix->bytesperline;
/* camera has to see its format, but the user the original one */
pix->pixelformat = xlate->cam_fmt->fourcc;
/* limit to sensor capabilities */
ret = icd->ops->try_fmt(icd, f);
pix->pixelformat = xlate->host_fmt->fourcc;
field = pix->field;
if (field == V4L2_FIELD_ANY) {
pix->field = V4L2_FIELD_NONE;
} else if (field != V4L2_FIELD_NONE) {
dev_err(&icd->dev, "Field type %d unsupported.\n", field);
return -EINVAL;
}
return ret;
}
static int pxa_camera_reqbufs(struct soc_camera_file *icf,
struct v4l2_requestbuffers *p)
{
int i;
/* This is for locking debugging only. I removed spinlocks and now I
* check whether .prepare is ever called on a linked buffer, or whether
* a dma IRQ can occur for an in-work or unlinked buffer. Until now
* it hadn't triggered */
for (i = 0; i < p->count; i++) {
struct pxa_buffer *buf = container_of(icf->vb_vidq.bufs[i],
struct pxa_buffer, vb);
buf->inwork = 0;
INIT_LIST_HEAD(&buf->vb.queue);
}
return 0;
}
static unsigned int pxa_camera_poll(struct file *file, poll_table *pt)
{
struct soc_camera_file *icf = file->private_data;
struct pxa_buffer *buf;
buf = list_entry(icf->vb_vidq.stream.next, struct pxa_buffer,
vb.stream);
poll_wait(file, &buf->vb.done, pt);
if (buf->vb.state == VIDEOBUF_DONE ||
buf->vb.state == VIDEOBUF_ERROR)
return POLLIN|POLLRDNORM;
return 0;
}
static int pxa_camera_querycap(struct soc_camera_host *ici,
struct v4l2_capability *cap)
{
/* cap->name is set by the firendly caller:-> */
strlcpy(cap->card, pxa_cam_driver_description, sizeof(cap->card));
cap->version = PXA_CAM_VERSION_CODE;
cap->capabilities = V4L2_CAP_VIDEO_CAPTURE | V4L2_CAP_STREAMING;
return 0;
}
static int pxa_camera_suspend(struct soc_camera_device *icd, pm_message_t state)
{
struct soc_camera_host *ici = to_soc_camera_host(icd->dev.parent);
struct pxa_camera_dev *pcdev = ici->priv;
int i = 0, ret = 0;
pcdev->save_cicr[i++] = __raw_readl(pcdev->base + CICR0);
pcdev->save_cicr[i++] = __raw_readl(pcdev->base + CICR1);
pcdev->save_cicr[i++] = __raw_readl(pcdev->base + CICR2);
pcdev->save_cicr[i++] = __raw_readl(pcdev->base + CICR3);
pcdev->save_cicr[i++] = __raw_readl(pcdev->base + CICR4);
if ((pcdev->icd) && (pcdev->icd->ops->suspend))
ret = pcdev->icd->ops->suspend(pcdev->icd, state);
return ret;
}
static int pxa_camera_resume(struct soc_camera_device *icd)
{
struct soc_camera_host *ici = to_soc_camera_host(icd->dev.parent);
struct pxa_camera_dev *pcdev = ici->priv;
int i = 0, ret = 0;
DRCMR(68) = pcdev->dma_chans[0] | DRCMR_MAPVLD;
DRCMR(69) = pcdev->dma_chans[1] | DRCMR_MAPVLD;
DRCMR(70) = pcdev->dma_chans[2] | DRCMR_MAPVLD;
__raw_writel(pcdev->save_cicr[i++] & ~CICR0_ENB, pcdev->base + CICR0);
__raw_writel(pcdev->save_cicr[i++], pcdev->base + CICR1);
__raw_writel(pcdev->save_cicr[i++], pcdev->base + CICR2);
__raw_writel(pcdev->save_cicr[i++], pcdev->base + CICR3);
__raw_writel(pcdev->save_cicr[i++], pcdev->base + CICR4);
if ((pcdev->icd) && (pcdev->icd->ops->resume))
ret = pcdev->icd->ops->resume(pcdev->icd);
/* Restart frame capture if active buffer exists */
if (!ret && pcdev->active) {
unsigned long cifr, cicr0;
/* Reset the FIFOs */
cifr = __raw_readl(pcdev->base + CIFR) | CIFR_RESET_F;
__raw_writel(cifr, pcdev->base + CIFR);
cicr0 = __raw_readl(pcdev->base + CICR0);
cicr0 &= ~CICR0_EOFM; /* Enable End-Of-Frame Interrupt */
cicr0 |= CICR0_ENB; /* Restart the Capture Interface */
__raw_writel(cicr0, pcdev->base + CICR0);
}
return ret;
}
static struct soc_camera_host_ops pxa_soc_camera_host_ops = {
.owner = THIS_MODULE,
.add = pxa_camera_add_device,
.remove = pxa_camera_remove_device,
.suspend = pxa_camera_suspend,
.resume = pxa_camera_resume,
.set_crop = pxa_camera_set_crop,
.get_formats = pxa_camera_get_formats,
.set_fmt = pxa_camera_set_fmt,
.try_fmt = pxa_camera_try_fmt,
.init_videobuf = pxa_camera_init_videobuf,
.reqbufs = pxa_camera_reqbufs,
.poll = pxa_camera_poll,
.querycap = pxa_camera_querycap,
.set_bus_param = pxa_camera_set_bus_param,
};
/* Should be allocated dynamically too, but we have only one. */
static struct soc_camera_host pxa_soc_camera_host = {
.drv_name = PXA_CAM_DRV_NAME,
.ops = &pxa_soc_camera_host_ops,
};
static int pxa_camera_probe(struct platform_device *pdev)
{
struct pxa_camera_dev *pcdev;
struct resource *res;
void __iomem *base;
int irq;
int err = 0;
res = platform_get_resource(pdev, IORESOURCE_MEM, 0);
irq = platform_get_irq(pdev, 0);
if (!res || irq < 0) {
err = -ENODEV;
goto exit;
}
pcdev = kzalloc(sizeof(*pcdev), GFP_KERNEL);
if (!pcdev) {
dev_err(&pdev->dev, "Could not allocate pcdev\n");
err = -ENOMEM;
goto exit;
}
pcdev->clk = clk_get(&pdev->dev, NULL);
if (IS_ERR(pcdev->clk)) {
err = PTR_ERR(pcdev->clk);
goto exit_kfree;
}
dev_set_drvdata(&pdev->dev, pcdev);
pcdev->res = res;
pcdev->pdata = pdev->dev.platform_data;
pcdev->platform_flags = pcdev->pdata->flags;
if (!(pcdev->platform_flags & (PXA_CAMERA_DATAWIDTH_8 |
PXA_CAMERA_DATAWIDTH_9 | PXA_CAMERA_DATAWIDTH_10))) {
/* Platform hasn't set available data widths. This is bad.
* Warn and use a default. */
dev_warn(&pdev->dev, "WARNING! Platform hasn't set available "
"data widths, using default 10 bit\n");
pcdev->platform_flags |= PXA_CAMERA_DATAWIDTH_10;
}
pcdev->mclk = pcdev->pdata->mclk_10khz * 10000;
if (!pcdev->mclk) {
dev_warn(&pdev->dev,
"mclk == 0! Please, fix your platform data. "
"Using default 20MHz\n");
pcdev->mclk = 20000000;
}
pcdev->dev = &pdev->dev;
pcdev->mclk_divisor = mclk_get_divisor(pcdev);
INIT_LIST_HEAD(&pcdev->capture);
spin_lock_init(&pcdev->lock);
/*
* Request the regions.
*/
if (!request_mem_region(res->start, res->end - res->start + 1,
PXA_CAM_DRV_NAME)) {
err = -EBUSY;
goto exit_clk;
}
base = ioremap(res->start, res->end - res->start + 1);
if (!base) {
err = -ENOMEM;
goto exit_release;
}
pcdev->irq = irq;
pcdev->base = base;
/* request dma */
err = pxa_request_dma("CI_Y", DMA_PRIO_HIGH,
pxa_camera_dma_irq_y, pcdev);
if (err < 0) {
dev_err(pcdev->dev, "Can't request DMA for Y\n");
goto exit_iounmap;
}
pcdev->dma_chans[0] = err;
dev_dbg(pcdev->dev, "got DMA channel %d\n", pcdev->dma_chans[0]);
err = pxa_request_dma("CI_U", DMA_PRIO_HIGH,
pxa_camera_dma_irq_u, pcdev);
if (err < 0) {
dev_err(pcdev->dev, "Can't request DMA for U\n");
goto exit_free_dma_y;
}
pcdev->dma_chans[1] = err;
dev_dbg(pcdev->dev, "got DMA channel (U) %d\n", pcdev->dma_chans[1]);
err = pxa_request_dma("CI_V", DMA_PRIO_HIGH,
pxa_camera_dma_irq_v, pcdev);
if (err < 0) {
dev_err(pcdev->dev, "Can't request DMA for V\n");
goto exit_free_dma_u;
}
pcdev->dma_chans[2] = err;
dev_dbg(pcdev->dev, "got DMA channel (V) %d\n", pcdev->dma_chans[2]);
DRCMR(68) = pcdev->dma_chans[0] | DRCMR_MAPVLD;
DRCMR(69) = pcdev->dma_chans[1] | DRCMR_MAPVLD;
DRCMR(70) = pcdev->dma_chans[2] | DRCMR_MAPVLD;
/* request irq */
err = request_irq(pcdev->irq, pxa_camera_irq, 0, PXA_CAM_DRV_NAME,
pcdev);
if (err) {
dev_err(pcdev->dev, "Camera interrupt register failed \n");
goto exit_free_dma;
}
pxa_soc_camera_host.priv = pcdev;
pxa_soc_camera_host.dev.parent = &pdev->dev;
pxa_soc_camera_host.nr = pdev->id;
err = soc_camera_host_register(&pxa_soc_camera_host);
if (err)
goto exit_free_irq;
return 0;
exit_free_irq:
free_irq(pcdev->irq, pcdev);
exit_free_dma:
pxa_free_dma(pcdev->dma_chans[2]);
exit_free_dma_u:
pxa_free_dma(pcdev->dma_chans[1]);
exit_free_dma_y:
pxa_free_dma(pcdev->dma_chans[0]);
exit_iounmap:
iounmap(base);
exit_release:
release_mem_region(res->start, res->end - res->start + 1);
exit_clk:
clk_put(pcdev->clk);
exit_kfree:
kfree(pcdev);
exit:
return err;
}
static int __devexit pxa_camera_remove(struct platform_device *pdev)
{
struct pxa_camera_dev *pcdev = platform_get_drvdata(pdev);
struct resource *res;
clk_put(pcdev->clk);
pxa_free_dma(pcdev->dma_chans[0]);
pxa_free_dma(pcdev->dma_chans[1]);
pxa_free_dma(pcdev->dma_chans[2]);
free_irq(pcdev->irq, pcdev);
soc_camera_host_unregister(&pxa_soc_camera_host);
iounmap(pcdev->base);
res = pcdev->res;
release_mem_region(res->start, res->end - res->start + 1);
kfree(pcdev);
dev_info(&pdev->dev, "PXA Camera driver unloaded\n");
return 0;
}
static struct platform_driver pxa_camera_driver = {
.driver = {
.name = PXA_CAM_DRV_NAME,
},
.probe = pxa_camera_probe,
.remove = __exit_p(pxa_camera_remove),
};
static int __devinit pxa_camera_init(void)
{
return platform_driver_register(&pxa_camera_driver);
}
static void __exit pxa_camera_exit(void)
{
platform_driver_unregister(&pxa_camera_driver);
}
module_init(pxa_camera_init);
module_exit(pxa_camera_exit);
MODULE_DESCRIPTION("PXA27x SoC Camera Host driver");
MODULE_AUTHOR("Guennadi Liakhovetski <kernel@pengutronix.de>");
MODULE_LICENSE("GPL");
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