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|
// SPDX-License-Identifier: GPL-2.0-only
/*
* isp.c
*
* TI OMAP3 ISP - Core
*
* Copyright (C) 2006-2010 Nokia Corporation
* Copyright (C) 2007-2009 Texas Instruments, Inc.
*
* Contacts: Laurent Pinchart <laurent.pinchart@ideasonboard.com>
* Sakari Ailus <sakari.ailus@iki.fi>
*
* Contributors:
* Laurent Pinchart <laurent.pinchart@ideasonboard.com>
* Sakari Ailus <sakari.ailus@iki.fi>
* David Cohen <dacohen@gmail.com>
* Stanimir Varbanov <svarbanov@mm-sol.com>
* Vimarsh Zutshi <vimarsh.zutshi@gmail.com>
* Tuukka Toivonen <tuukkat76@gmail.com>
* Sergio Aguirre <saaguirre@ti.com>
* Antti Koskipaa <akoskipa@gmail.com>
* Ivan T. Ivanov <iivanov@mm-sol.com>
* RaniSuneela <r-m@ti.com>
* Atanas Filipov <afilipov@mm-sol.com>
* Gjorgji Rosikopulos <grosikopulos@mm-sol.com>
* Hiroshi DOYU <hiroshi.doyu@nokia.com>
* Nayden Kanchev <nkanchev@mm-sol.com>
* Phil Carmody <ext-phil.2.carmody@nokia.com>
* Artem Bityutskiy <artem.bityutskiy@nokia.com>
* Dominic Curran <dcurran@ti.com>
* Ilkka Myllyperkio <ilkka.myllyperkio@sofica.fi>
* Pallavi Kulkarni <p-kulkarni@ti.com>
* Vaibhav Hiremath <hvaibhav@ti.com>
* Mohit Jalori <mjalori@ti.com>
* Sameer Venkatraman <sameerv@ti.com>
* Senthilvadivu Guruswamy <svadivu@ti.com>
* Thara Gopinath <thara@ti.com>
* Toni Leinonen <toni.leinonen@nokia.com>
* Troy Laramy <t-laramy@ti.com>
*/
#include <asm/cacheflush.h>
#include <linux/clk.h>
#include <linux/clkdev.h>
#include <linux/delay.h>
#include <linux/device.h>
#include <linux/dma-mapping.h>
#include <linux/i2c.h>
#include <linux/interrupt.h>
#include <linux/mfd/syscon.h>
#include <linux/module.h>
#include <linux/omap-iommu.h>
#include <linux/platform_device.h>
#include <linux/property.h>
#include <linux/regulator/consumer.h>
#include <linux/slab.h>
#include <linux/sched.h>
#include <linux/vmalloc.h>
#ifdef CONFIG_ARM_DMA_USE_IOMMU
#include <asm/dma-iommu.h>
#endif
#include <media/v4l2-common.h>
#include <media/v4l2-fwnode.h>
#include <media/v4l2-device.h>
#include <media/v4l2-mc.h>
#include "isp.h"
#include "ispreg.h"
#include "ispccdc.h"
#include "isppreview.h"
#include "ispresizer.h"
#include "ispcsi2.h"
#include "ispccp2.h"
#include "isph3a.h"
#include "isphist.h"
static unsigned int autoidle;
module_param(autoidle, int, 0444);
MODULE_PARM_DESC(autoidle, "Enable OMAP3ISP AUTOIDLE support");
static void isp_save_ctx(struct isp_device *isp);
static void isp_restore_ctx(struct isp_device *isp);
static const struct isp_res_mapping isp_res_maps[] = {
{
.isp_rev = ISP_REVISION_2_0,
.offset = {
/* first MMIO area */
0x0000, /* base, len 0x0070 */
0x0400, /* ccp2, len 0x01f0 */
0x0600, /* ccdc, len 0x00a8 */
0x0a00, /* hist, len 0x0048 */
0x0c00, /* h3a, len 0x0060 */
0x0e00, /* preview, len 0x00a0 */
0x1000, /* resizer, len 0x00ac */
0x1200, /* sbl, len 0x00fc */
/* second MMIO area */
0x0000, /* csi2a, len 0x0170 */
0x0170, /* csiphy2, len 0x000c */
},
.phy_type = ISP_PHY_TYPE_3430,
},
{
.isp_rev = ISP_REVISION_15_0,
.offset = {
/* first MMIO area */
0x0000, /* base, len 0x0070 */
0x0400, /* ccp2, len 0x01f0 */
0x0600, /* ccdc, len 0x00a8 */
0x0a00, /* hist, len 0x0048 */
0x0c00, /* h3a, len 0x0060 */
0x0e00, /* preview, len 0x00a0 */
0x1000, /* resizer, len 0x00ac */
0x1200, /* sbl, len 0x00fc */
/* second MMIO area */
0x0000, /* csi2a, len 0x0170 (1st area) */
0x0170, /* csiphy2, len 0x000c */
0x01c0, /* csi2a, len 0x0040 (2nd area) */
0x0400, /* csi2c, len 0x0170 (1st area) */
0x0570, /* csiphy1, len 0x000c */
0x05c0, /* csi2c, len 0x0040 (2nd area) */
},
.phy_type = ISP_PHY_TYPE_3630,
},
};
/* Structure for saving/restoring ISP module registers */
static struct isp_reg isp_reg_list[] = {
{OMAP3_ISP_IOMEM_MAIN, ISP_SYSCONFIG, 0},
{OMAP3_ISP_IOMEM_MAIN, ISP_CTRL, 0},
{OMAP3_ISP_IOMEM_MAIN, ISP_TCTRL_CTRL, 0},
{0, ISP_TOK_TERM, 0}
};
/*
* omap3isp_flush - Post pending L3 bus writes by doing a register readback
* @isp: OMAP3 ISP device
*
* In order to force posting of pending writes, we need to write and
* readback the same register, in this case the revision register.
*
* See this link for reference:
* http://www.mail-archive.com/linux-omap@vger.kernel.org/msg08149.html
*/
void omap3isp_flush(struct isp_device *isp)
{
isp_reg_writel(isp, 0, OMAP3_ISP_IOMEM_MAIN, ISP_REVISION);
isp_reg_readl(isp, OMAP3_ISP_IOMEM_MAIN, ISP_REVISION);
}
/* -----------------------------------------------------------------------------
* XCLK
*/
#define to_isp_xclk(_hw) container_of(_hw, struct isp_xclk, hw)
static void isp_xclk_update(struct isp_xclk *xclk, u32 divider)
{
switch (xclk->id) {
case ISP_XCLK_A:
isp_reg_clr_set(xclk->isp, OMAP3_ISP_IOMEM_MAIN, ISP_TCTRL_CTRL,
ISPTCTRL_CTRL_DIVA_MASK,
divider << ISPTCTRL_CTRL_DIVA_SHIFT);
break;
case ISP_XCLK_B:
isp_reg_clr_set(xclk->isp, OMAP3_ISP_IOMEM_MAIN, ISP_TCTRL_CTRL,
ISPTCTRL_CTRL_DIVB_MASK,
divider << ISPTCTRL_CTRL_DIVB_SHIFT);
break;
}
}
static int isp_xclk_prepare(struct clk_hw *hw)
{
struct isp_xclk *xclk = to_isp_xclk(hw);
omap3isp_get(xclk->isp);
return 0;
}
static void isp_xclk_unprepare(struct clk_hw *hw)
{
struct isp_xclk *xclk = to_isp_xclk(hw);
omap3isp_put(xclk->isp);
}
static int isp_xclk_enable(struct clk_hw *hw)
{
struct isp_xclk *xclk = to_isp_xclk(hw);
unsigned long flags;
spin_lock_irqsave(&xclk->lock, flags);
isp_xclk_update(xclk, xclk->divider);
xclk->enabled = true;
spin_unlock_irqrestore(&xclk->lock, flags);
return 0;
}
static void isp_xclk_disable(struct clk_hw *hw)
{
struct isp_xclk *xclk = to_isp_xclk(hw);
unsigned long flags;
spin_lock_irqsave(&xclk->lock, flags);
isp_xclk_update(xclk, 0);
xclk->enabled = false;
spin_unlock_irqrestore(&xclk->lock, flags);
}
static unsigned long isp_xclk_recalc_rate(struct clk_hw *hw,
unsigned long parent_rate)
{
struct isp_xclk *xclk = to_isp_xclk(hw);
return parent_rate / xclk->divider;
}
static u32 isp_xclk_calc_divider(unsigned long *rate, unsigned long parent_rate)
{
u32 divider;
if (*rate >= parent_rate) {
*rate = parent_rate;
return ISPTCTRL_CTRL_DIV_BYPASS;
}
if (*rate == 0)
*rate = 1;
divider = DIV_ROUND_CLOSEST(parent_rate, *rate);
if (divider >= ISPTCTRL_CTRL_DIV_BYPASS)
divider = ISPTCTRL_CTRL_DIV_BYPASS - 1;
*rate = parent_rate / divider;
return divider;
}
static long isp_xclk_round_rate(struct clk_hw *hw, unsigned long rate,
unsigned long *parent_rate)
{
isp_xclk_calc_divider(&rate, *parent_rate);
return rate;
}
static int isp_xclk_set_rate(struct clk_hw *hw, unsigned long rate,
unsigned long parent_rate)
{
struct isp_xclk *xclk = to_isp_xclk(hw);
unsigned long flags;
u32 divider;
divider = isp_xclk_calc_divider(&rate, parent_rate);
spin_lock_irqsave(&xclk->lock, flags);
xclk->divider = divider;
if (xclk->enabled)
isp_xclk_update(xclk, divider);
spin_unlock_irqrestore(&xclk->lock, flags);
dev_dbg(xclk->isp->dev, "%s: cam_xclk%c set to %lu Hz (div %u)\n",
__func__, xclk->id == ISP_XCLK_A ? 'a' : 'b', rate, divider);
return 0;
}
static const struct clk_ops isp_xclk_ops = {
.prepare = isp_xclk_prepare,
.unprepare = isp_xclk_unprepare,
.enable = isp_xclk_enable,
.disable = isp_xclk_disable,
.recalc_rate = isp_xclk_recalc_rate,
.round_rate = isp_xclk_round_rate,
.set_rate = isp_xclk_set_rate,
};
static const char *isp_xclk_parent_name = "cam_mclk";
static struct clk *isp_xclk_src_get(struct of_phandle_args *clkspec, void *data)
{
unsigned int idx = clkspec->args[0];
struct isp_device *isp = data;
if (idx >= ARRAY_SIZE(isp->xclks))
return ERR_PTR(-ENOENT);
return isp->xclks[idx].clk;
}
static int isp_xclk_init(struct isp_device *isp)
{
struct device_node *np = isp->dev->of_node;
struct clk_init_data init = {};
unsigned int i;
for (i = 0; i < ARRAY_SIZE(isp->xclks); ++i)
isp->xclks[i].clk = ERR_PTR(-EINVAL);
for (i = 0; i < ARRAY_SIZE(isp->xclks); ++i) {
struct isp_xclk *xclk = &isp->xclks[i];
xclk->isp = isp;
xclk->id = i == 0 ? ISP_XCLK_A : ISP_XCLK_B;
xclk->divider = 1;
spin_lock_init(&xclk->lock);
init.name = i == 0 ? "cam_xclka" : "cam_xclkb";
init.ops = &isp_xclk_ops;
init.parent_names = &isp_xclk_parent_name;
init.num_parents = 1;
xclk->hw.init = &init;
/*
* The first argument is NULL in order to avoid circular
* reference, as this driver takes reference on the
* sensor subdevice modules and the sensors would take
* reference on this module through clk_get().
*/
xclk->clk = clk_register(NULL, &xclk->hw);
if (IS_ERR(xclk->clk))
return PTR_ERR(xclk->clk);
}
if (np)
of_clk_add_provider(np, isp_xclk_src_get, isp);
return 0;
}
static void isp_xclk_cleanup(struct isp_device *isp)
{
struct device_node *np = isp->dev->of_node;
unsigned int i;
if (np)
of_clk_del_provider(np);
for (i = 0; i < ARRAY_SIZE(isp->xclks); ++i) {
struct isp_xclk *xclk = &isp->xclks[i];
if (!IS_ERR(xclk->clk))
clk_unregister(xclk->clk);
}
}
/* -----------------------------------------------------------------------------
* Interrupts
*/
/*
* isp_enable_interrupts - Enable ISP interrupts.
* @isp: OMAP3 ISP device
*/
static void isp_enable_interrupts(struct isp_device *isp)
{
static const u32 irq = IRQ0ENABLE_CSIA_IRQ
| IRQ0ENABLE_CSIB_IRQ
| IRQ0ENABLE_CCDC_LSC_PREF_ERR_IRQ
| IRQ0ENABLE_CCDC_LSC_DONE_IRQ
| IRQ0ENABLE_CCDC_VD0_IRQ
| IRQ0ENABLE_CCDC_VD1_IRQ
| IRQ0ENABLE_HS_VS_IRQ
| IRQ0ENABLE_HIST_DONE_IRQ
| IRQ0ENABLE_H3A_AWB_DONE_IRQ
| IRQ0ENABLE_H3A_AF_DONE_IRQ
| IRQ0ENABLE_PRV_DONE_IRQ
| IRQ0ENABLE_RSZ_DONE_IRQ;
isp_reg_writel(isp, irq, OMAP3_ISP_IOMEM_MAIN, ISP_IRQ0STATUS);
isp_reg_writel(isp, irq, OMAP3_ISP_IOMEM_MAIN, ISP_IRQ0ENABLE);
}
/*
* isp_disable_interrupts - Disable ISP interrupts.
* @isp: OMAP3 ISP device
*/
static void isp_disable_interrupts(struct isp_device *isp)
{
isp_reg_writel(isp, 0, OMAP3_ISP_IOMEM_MAIN, ISP_IRQ0ENABLE);
}
/*
* isp_core_init - ISP core settings
* @isp: OMAP3 ISP device
* @idle: Consider idle state.
*
* Set the power settings for the ISP and SBL bus and configure the HS/VS
* interrupt source.
*
* We need to configure the HS/VS interrupt source before interrupts get
* enabled, as the sensor might be free-running and the ISP default setting
* (HS edge) would put an unnecessary burden on the CPU.
*/
static void isp_core_init(struct isp_device *isp, int idle)
{
isp_reg_writel(isp,
((idle ? ISP_SYSCONFIG_MIDLEMODE_SMARTSTANDBY :
ISP_SYSCONFIG_MIDLEMODE_FORCESTANDBY) <<
ISP_SYSCONFIG_MIDLEMODE_SHIFT) |
((isp->revision == ISP_REVISION_15_0) ?
ISP_SYSCONFIG_AUTOIDLE : 0),
OMAP3_ISP_IOMEM_MAIN, ISP_SYSCONFIG);
isp_reg_writel(isp,
(isp->autoidle ? ISPCTRL_SBL_AUTOIDLE : 0) |
ISPCTRL_SYNC_DETECT_VSRISE,
OMAP3_ISP_IOMEM_MAIN, ISP_CTRL);
}
/*
* Configure the bridge and lane shifter. Valid inputs are
*
* CCDC_INPUT_PARALLEL: Parallel interface
* CCDC_INPUT_CSI2A: CSI2a receiver
* CCDC_INPUT_CCP2B: CCP2b receiver
* CCDC_INPUT_CSI2C: CSI2c receiver
*
* The bridge and lane shifter are configured according to the selected input
* and the ISP platform data.
*/
void omap3isp_configure_bridge(struct isp_device *isp,
enum ccdc_input_entity input,
const struct isp_parallel_cfg *parcfg,
unsigned int shift, unsigned int bridge)
{
u32 ispctrl_val;
ispctrl_val = isp_reg_readl(isp, OMAP3_ISP_IOMEM_MAIN, ISP_CTRL);
ispctrl_val &= ~ISPCTRL_SHIFT_MASK;
ispctrl_val &= ~ISPCTRL_PAR_CLK_POL_INV;
ispctrl_val &= ~ISPCTRL_PAR_SER_CLK_SEL_MASK;
ispctrl_val &= ~ISPCTRL_PAR_BRIDGE_MASK;
ispctrl_val |= bridge;
switch (input) {
case CCDC_INPUT_PARALLEL:
ispctrl_val |= ISPCTRL_PAR_SER_CLK_SEL_PARALLEL;
ispctrl_val |= parcfg->clk_pol << ISPCTRL_PAR_CLK_POL_SHIFT;
shift += parcfg->data_lane_shift;
break;
case CCDC_INPUT_CSI2A:
ispctrl_val |= ISPCTRL_PAR_SER_CLK_SEL_CSIA;
break;
case CCDC_INPUT_CCP2B:
ispctrl_val |= ISPCTRL_PAR_SER_CLK_SEL_CSIB;
break;
case CCDC_INPUT_CSI2C:
ispctrl_val |= ISPCTRL_PAR_SER_CLK_SEL_CSIC;
break;
default:
return;
}
ispctrl_val |= ((shift/2) << ISPCTRL_SHIFT_SHIFT) & ISPCTRL_SHIFT_MASK;
isp_reg_writel(isp, ispctrl_val, OMAP3_ISP_IOMEM_MAIN, ISP_CTRL);
}
void omap3isp_hist_dma_done(struct isp_device *isp)
{
if (omap3isp_ccdc_busy(&isp->isp_ccdc) ||
omap3isp_stat_pcr_busy(&isp->isp_hist)) {
/* Histogram cannot be enabled in this frame anymore */
atomic_set(&isp->isp_hist.buf_err, 1);
dev_dbg(isp->dev,
"hist: Out of synchronization with CCDC. Ignoring next buffer.\n");
}
}
static inline void isp_isr_dbg(struct isp_device *isp, u32 irqstatus)
{
static const char *name[] = {
"CSIA_IRQ",
"res1",
"res2",
"CSIB_LCM_IRQ",
"CSIB_IRQ",
"res5",
"res6",
"res7",
"CCDC_VD0_IRQ",
"CCDC_VD1_IRQ",
"CCDC_VD2_IRQ",
"CCDC_ERR_IRQ",
"H3A_AF_DONE_IRQ",
"H3A_AWB_DONE_IRQ",
"res14",
"res15",
"HIST_DONE_IRQ",
"CCDC_LSC_DONE",
"CCDC_LSC_PREFETCH_COMPLETED",
"CCDC_LSC_PREFETCH_ERROR",
"PRV_DONE_IRQ",
"CBUFF_IRQ",
"res22",
"res23",
"RSZ_DONE_IRQ",
"OVF_IRQ",
"res26",
"res27",
"MMU_ERR_IRQ",
"OCP_ERR_IRQ",
"SEC_ERR_IRQ",
"HS_VS_IRQ",
};
int i;
dev_dbg(isp->dev, "ISP IRQ: ");
for (i = 0; i < ARRAY_SIZE(name); i++) {
if ((1 << i) & irqstatus)
printk(KERN_CONT "%s ", name[i]);
}
printk(KERN_CONT "\n");
}
static void isp_isr_sbl(struct isp_device *isp)
{
struct device *dev = isp->dev;
struct isp_pipeline *pipe;
u32 sbl_pcr;
/*
* Handle shared buffer logic overflows for video buffers.
* ISPSBL_PCR_CCDCPRV_2_RSZ_OVF can be safely ignored.
*/
sbl_pcr = isp_reg_readl(isp, OMAP3_ISP_IOMEM_SBL, ISPSBL_PCR);
isp_reg_writel(isp, sbl_pcr, OMAP3_ISP_IOMEM_SBL, ISPSBL_PCR);
sbl_pcr &= ~ISPSBL_PCR_CCDCPRV_2_RSZ_OVF;
if (sbl_pcr)
dev_dbg(dev, "SBL overflow (PCR = 0x%08x)\n", sbl_pcr);
if (sbl_pcr & ISPSBL_PCR_CSIB_WBL_OVF) {
pipe = to_isp_pipeline(&isp->isp_ccp2.subdev.entity);
if (pipe != NULL)
pipe->error = true;
}
if (sbl_pcr & ISPSBL_PCR_CSIA_WBL_OVF) {
pipe = to_isp_pipeline(&isp->isp_csi2a.subdev.entity);
if (pipe != NULL)
pipe->error = true;
}
if (sbl_pcr & ISPSBL_PCR_CCDC_WBL_OVF) {
pipe = to_isp_pipeline(&isp->isp_ccdc.subdev.entity);
if (pipe != NULL)
pipe->error = true;
}
if (sbl_pcr & ISPSBL_PCR_PRV_WBL_OVF) {
pipe = to_isp_pipeline(&isp->isp_prev.subdev.entity);
if (pipe != NULL)
pipe->error = true;
}
if (sbl_pcr & (ISPSBL_PCR_RSZ1_WBL_OVF
| ISPSBL_PCR_RSZ2_WBL_OVF
| ISPSBL_PCR_RSZ3_WBL_OVF
| ISPSBL_PCR_RSZ4_WBL_OVF)) {
pipe = to_isp_pipeline(&isp->isp_res.subdev.entity);
if (pipe != NULL)
pipe->error = true;
}
if (sbl_pcr & ISPSBL_PCR_H3A_AF_WBL_OVF)
omap3isp_stat_sbl_overflow(&isp->isp_af);
if (sbl_pcr & ISPSBL_PCR_H3A_AEAWB_WBL_OVF)
omap3isp_stat_sbl_overflow(&isp->isp_aewb);
}
/*
* isp_isr - Interrupt Service Routine for Camera ISP module.
* @irq: Not used currently.
* @_isp: Pointer to the OMAP3 ISP device
*
* Handles the corresponding callback if plugged in.
*/
static irqreturn_t isp_isr(int irq, void *_isp)
{
static const u32 ccdc_events = IRQ0STATUS_CCDC_LSC_PREF_ERR_IRQ |
IRQ0STATUS_CCDC_LSC_DONE_IRQ |
IRQ0STATUS_CCDC_VD0_IRQ |
IRQ0STATUS_CCDC_VD1_IRQ |
IRQ0STATUS_HS_VS_IRQ;
struct isp_device *isp = _isp;
u32 irqstatus;
irqstatus = isp_reg_readl(isp, OMAP3_ISP_IOMEM_MAIN, ISP_IRQ0STATUS);
isp_reg_writel(isp, irqstatus, OMAP3_ISP_IOMEM_MAIN, ISP_IRQ0STATUS);
isp_isr_sbl(isp);
if (irqstatus & IRQ0STATUS_CSIA_IRQ)
omap3isp_csi2_isr(&isp->isp_csi2a);
if (irqstatus & IRQ0STATUS_CSIB_IRQ)
omap3isp_ccp2_isr(&isp->isp_ccp2);
if (irqstatus & IRQ0STATUS_CCDC_VD0_IRQ) {
if (isp->isp_ccdc.output & CCDC_OUTPUT_PREVIEW)
omap3isp_preview_isr_frame_sync(&isp->isp_prev);
if (isp->isp_ccdc.output & CCDC_OUTPUT_RESIZER)
omap3isp_resizer_isr_frame_sync(&isp->isp_res);
omap3isp_stat_isr_frame_sync(&isp->isp_aewb);
omap3isp_stat_isr_frame_sync(&isp->isp_af);
omap3isp_stat_isr_frame_sync(&isp->isp_hist);
}
if (irqstatus & ccdc_events)
omap3isp_ccdc_isr(&isp->isp_ccdc, irqstatus & ccdc_events);
if (irqstatus & IRQ0STATUS_PRV_DONE_IRQ) {
if (isp->isp_prev.output & PREVIEW_OUTPUT_RESIZER)
omap3isp_resizer_isr_frame_sync(&isp->isp_res);
omap3isp_preview_isr(&isp->isp_prev);
}
if (irqstatus & IRQ0STATUS_RSZ_DONE_IRQ)
omap3isp_resizer_isr(&isp->isp_res);
if (irqstatus & IRQ0STATUS_H3A_AWB_DONE_IRQ)
omap3isp_stat_isr(&isp->isp_aewb);
if (irqstatus & IRQ0STATUS_H3A_AF_DONE_IRQ)
omap3isp_stat_isr(&isp->isp_af);
if (irqstatus & IRQ0STATUS_HIST_DONE_IRQ)
omap3isp_stat_isr(&isp->isp_hist);
omap3isp_flush(isp);
#if defined(DEBUG) && defined(ISP_ISR_DEBUG)
isp_isr_dbg(isp, irqstatus);
#endif
return IRQ_HANDLED;
}
static const struct media_device_ops isp_media_ops = {
.link_notify = v4l2_pipeline_link_notify,
};
/* -----------------------------------------------------------------------------
* Pipeline stream management
*/
/*
* isp_pipeline_enable - Enable streaming on a pipeline
* @pipe: ISP pipeline
* @mode: Stream mode (single shot or continuous)
*
* Walk the entities chain starting at the pipeline output video node and start
* all modules in the chain in the given mode.
*
* Return 0 if successful, or the return value of the failed video::s_stream
* operation otherwise.
*/
static int isp_pipeline_enable(struct isp_pipeline *pipe,
enum isp_pipeline_stream_state mode)
{
struct isp_device *isp = pipe->output->isp;
struct media_entity *entity;
struct media_pad *pad;
struct v4l2_subdev *subdev;
unsigned long flags;
int ret;
/* Refuse to start streaming if an entity included in the pipeline has
* crashed. This check must be performed before the loop below to avoid
* starting entities if the pipeline won't start anyway (those entities
* would then likely fail to stop, making the problem worse).
*/
if (media_entity_enum_intersects(&pipe->ent_enum, &isp->crashed))
return -EIO;
spin_lock_irqsave(&pipe->lock, flags);
pipe->state &= ~(ISP_PIPELINE_IDLE_INPUT | ISP_PIPELINE_IDLE_OUTPUT);
spin_unlock_irqrestore(&pipe->lock, flags);
pipe->do_propagation = false;
entity = &pipe->output->video.entity;
while (1) {
pad = &entity->pads[0];
if (!(pad->flags & MEDIA_PAD_FL_SINK))
break;
pad = media_entity_remote_pad(pad);
if (!pad || !is_media_entity_v4l2_subdev(pad->entity))
break;
entity = pad->entity;
subdev = media_entity_to_v4l2_subdev(entity);
ret = v4l2_subdev_call(subdev, video, s_stream, mode);
if (ret < 0 && ret != -ENOIOCTLCMD)
return ret;
if (subdev == &isp->isp_ccdc.subdev) {
v4l2_subdev_call(&isp->isp_aewb.subdev, video,
s_stream, mode);
v4l2_subdev_call(&isp->isp_af.subdev, video,
s_stream, mode);
v4l2_subdev_call(&isp->isp_hist.subdev, video,
s_stream, mode);
pipe->do_propagation = true;
}
}
return 0;
}
static int isp_pipeline_wait_resizer(struct isp_device *isp)
{
return omap3isp_resizer_busy(&isp->isp_res);
}
static int isp_pipeline_wait_preview(struct isp_device *isp)
{
return omap3isp_preview_busy(&isp->isp_prev);
}
static int isp_pipeline_wait_ccdc(struct isp_device *isp)
{
return omap3isp_stat_busy(&isp->isp_af)
|| omap3isp_stat_busy(&isp->isp_aewb)
|| omap3isp_stat_busy(&isp->isp_hist)
|| omap3isp_ccdc_busy(&isp->isp_ccdc);
}
#define ISP_STOP_TIMEOUT msecs_to_jiffies(1000)
static int isp_pipeline_wait(struct isp_device *isp,
int(*busy)(struct isp_device *isp))
{
unsigned long timeout = jiffies + ISP_STOP_TIMEOUT;
while (!time_after(jiffies, timeout)) {
if (!busy(isp))
return 0;
}
return 1;
}
/*
* isp_pipeline_disable - Disable streaming on a pipeline
* @pipe: ISP pipeline
*
* Walk the entities chain starting at the pipeline output video node and stop
* all modules in the chain. Wait synchronously for the modules to be stopped if
* necessary.
*
* Return 0 if all modules have been properly stopped, or -ETIMEDOUT if a module
* can't be stopped (in which case a software reset of the ISP is probably
* necessary).
*/
static int isp_pipeline_disable(struct isp_pipeline *pipe)
{
struct isp_device *isp = pipe->output->isp;
struct media_entity *entity;
struct media_pad *pad;
struct v4l2_subdev *subdev;
int failure = 0;
int ret;
/*
* We need to stop all the modules after CCDC first or they'll
* never stop since they may not get a full frame from CCDC.
*/
entity = &pipe->output->video.entity;
while (1) {
pad = &entity->pads[0];
if (!(pad->flags & MEDIA_PAD_FL_SINK))
break;
pad = media_entity_remote_pad(pad);
if (!pad || !is_media_entity_v4l2_subdev(pad->entity))
break;
entity = pad->entity;
subdev = media_entity_to_v4l2_subdev(entity);
if (subdev == &isp->isp_ccdc.subdev) {
v4l2_subdev_call(&isp->isp_aewb.subdev,
video, s_stream, 0);
v4l2_subdev_call(&isp->isp_af.subdev,
video, s_stream, 0);
v4l2_subdev_call(&isp->isp_hist.subdev,
video, s_stream, 0);
}
ret = v4l2_subdev_call(subdev, video, s_stream, 0);
if (subdev == &isp->isp_res.subdev)
ret |= isp_pipeline_wait(isp, isp_pipeline_wait_resizer);
else if (subdev == &isp->isp_prev.subdev)
ret |= isp_pipeline_wait(isp, isp_pipeline_wait_preview);
else if (subdev == &isp->isp_ccdc.subdev)
ret |= isp_pipeline_wait(isp, isp_pipeline_wait_ccdc);
/* Handle stop failures. An entity that fails to stop can
* usually just be restarted. Flag the stop failure nonetheless
* to trigger an ISP reset the next time the device is released,
* just in case.
*
* The preview engine is a special case. A failure to stop can
* mean a hardware crash. When that happens the preview engine
* won't respond to read/write operations on the L4 bus anymore,
* resulting in a bus fault and a kernel oops next time it gets
* accessed. Mark it as crashed to prevent pipelines including
* it from being started.
*/
if (ret) {
dev_info(isp->dev, "Unable to stop %s\n", subdev->name);
isp->stop_failure = true;
if (subdev == &isp->isp_prev.subdev)
media_entity_enum_set(&isp->crashed,
&subdev->entity);
failure = -ETIMEDOUT;
}
}
return failure;
}
/*
* omap3isp_pipeline_set_stream - Enable/disable streaming on a pipeline
* @pipe: ISP pipeline
* @state: Stream state (stopped, single shot or continuous)
*
* Set the pipeline to the given stream state. Pipelines can be started in
* single-shot or continuous mode.
*
* Return 0 if successful, or the return value of the failed video::s_stream
* operation otherwise. The pipeline state is not updated when the operation
* fails, except when stopping the pipeline.
*/
int omap3isp_pipeline_set_stream(struct isp_pipeline *pipe,
enum isp_pipeline_stream_state state)
{
int ret;
if (state == ISP_PIPELINE_STREAM_STOPPED)
ret = isp_pipeline_disable(pipe);
else
ret = isp_pipeline_enable(pipe, state);
if (ret == 0 || state == ISP_PIPELINE_STREAM_STOPPED)
pipe->stream_state = state;
return ret;
}
/*
* omap3isp_pipeline_cancel_stream - Cancel stream on a pipeline
* @pipe: ISP pipeline
*
* Cancelling a stream mark all buffers on all video nodes in the pipeline as
* erroneous and makes sure no new buffer can be queued. This function is called
* when a fatal error that prevents any further operation on the pipeline
* occurs.
*/
void omap3isp_pipeline_cancel_stream(struct isp_pipeline *pipe)
{
if (pipe->input)
omap3isp_video_cancel_stream(pipe->input);
if (pipe->output)
omap3isp_video_cancel_stream(pipe->output);
}
/*
* isp_pipeline_resume - Resume streaming on a pipeline
* @pipe: ISP pipeline
*
* Resume video output and input and re-enable pipeline.
*/
static void isp_pipeline_resume(struct isp_pipeline *pipe)
{
int singleshot = pipe->stream_state == ISP_PIPELINE_STREAM_SINGLESHOT;
omap3isp_video_resume(pipe->output, !singleshot);
if (singleshot)
omap3isp_video_resume(pipe->input, 0);
isp_pipeline_enable(pipe, pipe->stream_state);
}
/*
* isp_pipeline_suspend - Suspend streaming on a pipeline
* @pipe: ISP pipeline
*
* Suspend pipeline.
*/
static void isp_pipeline_suspend(struct isp_pipeline *pipe)
{
isp_pipeline_disable(pipe);
}
/*
* isp_pipeline_is_last - Verify if entity has an enabled link to the output
* video node
* @me: ISP module's media entity
*
* Returns 1 if the entity has an enabled link to the output video node or 0
* otherwise. It's true only while pipeline can have no more than one output
* node.
*/
static int isp_pipeline_is_last(struct media_entity *me)
{
struct isp_pipeline *pipe;
struct media_pad *pad;
if (!me->pipe)
return 0;
pipe = to_isp_pipeline(me);
if (pipe->stream_state == ISP_PIPELINE_STREAM_STOPPED)
return 0;
pad = media_entity_remote_pad(&pipe->output->pad);
return pad->entity == me;
}
/*
* isp_suspend_module_pipeline - Suspend pipeline to which belongs the module
* @me: ISP module's media entity
*
* Suspend the whole pipeline if module's entity has an enabled link to the
* output video node. It works only while pipeline can have no more than one
* output node.
*/
static void isp_suspend_module_pipeline(struct media_entity *me)
{
if (isp_pipeline_is_last(me))
isp_pipeline_suspend(to_isp_pipeline(me));
}
/*
* isp_resume_module_pipeline - Resume pipeline to which belongs the module
* @me: ISP module's media entity
*
* Resume the whole pipeline if module's entity has an enabled link to the
* output video node. It works only while pipeline can have no more than one
* output node.
*/
static void isp_resume_module_pipeline(struct media_entity *me)
{
if (isp_pipeline_is_last(me))
isp_pipeline_resume(to_isp_pipeline(me));
}
/*
* isp_suspend_modules - Suspend ISP submodules.
* @isp: OMAP3 ISP device
*
* Returns 0 if suspend left in idle state all the submodules properly,
* or returns 1 if a general Reset is required to suspend the submodules.
*/
static int __maybe_unused isp_suspend_modules(struct isp_device *isp)
{
unsigned long timeout;
omap3isp_stat_suspend(&isp->isp_aewb);
omap3isp_stat_suspend(&isp->isp_af);
omap3isp_stat_suspend(&isp->isp_hist);
isp_suspend_module_pipeline(&isp->isp_res.subdev.entity);
isp_suspend_module_pipeline(&isp->isp_prev.subdev.entity);
isp_suspend_module_pipeline(&isp->isp_ccdc.subdev.entity);
isp_suspend_module_pipeline(&isp->isp_csi2a.subdev.entity);
isp_suspend_module_pipeline(&isp->isp_ccp2.subdev.entity);
timeout = jiffies + ISP_STOP_TIMEOUT;
while (omap3isp_stat_busy(&isp->isp_af)
|| omap3isp_stat_busy(&isp->isp_aewb)
|| omap3isp_stat_busy(&isp->isp_hist)
|| omap3isp_preview_busy(&isp->isp_prev)
|| omap3isp_resizer_busy(&isp->isp_res)
|| omap3isp_ccdc_busy(&isp->isp_ccdc)) {
if (time_after(jiffies, timeout)) {
dev_info(isp->dev, "can't stop modules.\n");
return 1;
}
msleep(1);
}
return 0;
}
/*
* isp_resume_modules - Resume ISP submodules.
* @isp: OMAP3 ISP device
*/
static void __maybe_unused isp_resume_modules(struct isp_device *isp)
{
omap3isp_stat_resume(&isp->isp_aewb);
omap3isp_stat_resume(&isp->isp_af);
omap3isp_stat_resume(&isp->isp_hist);
isp_resume_module_pipeline(&isp->isp_res.subdev.entity);
isp_resume_module_pipeline(&isp->isp_prev.subdev.entity);
isp_resume_module_pipeline(&isp->isp_ccdc.subdev.entity);
isp_resume_module_pipeline(&isp->isp_csi2a.subdev.entity);
isp_resume_module_pipeline(&isp->isp_ccp2.subdev.entity);
}
/*
* isp_reset - Reset ISP with a timeout wait for idle.
* @isp: OMAP3 ISP device
*/
static int isp_reset(struct isp_device *isp)
{
unsigned long timeout = 0;
isp_reg_writel(isp,
isp_reg_readl(isp, OMAP3_ISP_IOMEM_MAIN, ISP_SYSCONFIG)
| ISP_SYSCONFIG_SOFTRESET,
OMAP3_ISP_IOMEM_MAIN, ISP_SYSCONFIG);
while (!(isp_reg_readl(isp, OMAP3_ISP_IOMEM_MAIN,
ISP_SYSSTATUS) & 0x1)) {
if (timeout++ > 10000) {
dev_alert(isp->dev, "cannot reset ISP\n");
return -ETIMEDOUT;
}
udelay(1);
}
isp->stop_failure = false;
media_entity_enum_zero(&isp->crashed);
return 0;
}
/*
* isp_save_context - Saves the values of the ISP module registers.
* @isp: OMAP3 ISP device
* @reg_list: Structure containing pairs of register address and value to
* modify on OMAP.
*/
static void
isp_save_context(struct isp_device *isp, struct isp_reg *reg_list)
{
struct isp_reg *next = reg_list;
for (; next->reg != ISP_TOK_TERM; next++)
next->val = isp_reg_readl(isp, next->mmio_range, next->reg);
}
/*
* isp_restore_context - Restores the values of the ISP module registers.
* @isp: OMAP3 ISP device
* @reg_list: Structure containing pairs of register address and value to
* modify on OMAP.
*/
static void
isp_restore_context(struct isp_device *isp, struct isp_reg *reg_list)
{
struct isp_reg *next = reg_list;
for (; next->reg != ISP_TOK_TERM; next++)
isp_reg_writel(isp, next->val, next->mmio_range, next->reg);
}
/*
* isp_save_ctx - Saves ISP, CCDC, HIST, H3A, PREV, RESZ & MMU context.
* @isp: OMAP3 ISP device
*
* Routine for saving the context of each module in the ISP.
* CCDC, HIST, H3A, PREV, RESZ and MMU.
*/
static void isp_save_ctx(struct isp_device *isp)
{
isp_save_context(isp, isp_reg_list);
omap_iommu_save_ctx(isp->dev);
}
/*
* isp_restore_ctx - Restores ISP, CCDC, HIST, H3A, PREV, RESZ & MMU context.
* @isp: OMAP3 ISP device
*
* Routine for restoring the context of each module in the ISP.
* CCDC, HIST, H3A, PREV, RESZ and MMU.
*/
static void isp_restore_ctx(struct isp_device *isp)
{
isp_restore_context(isp, isp_reg_list);
omap_iommu_restore_ctx(isp->dev);
omap3isp_ccdc_restore_context(isp);
omap3isp_preview_restore_context(isp);
}
/* -----------------------------------------------------------------------------
* SBL resources management
*/
#define OMAP3_ISP_SBL_READ (OMAP3_ISP_SBL_CSI1_READ | \
OMAP3_ISP_SBL_CCDC_LSC_READ | \
OMAP3_ISP_SBL_PREVIEW_READ | \
OMAP3_ISP_SBL_RESIZER_READ)
#define OMAP3_ISP_SBL_WRITE (OMAP3_ISP_SBL_CSI1_WRITE | \
OMAP3_ISP_SBL_CSI2A_WRITE | \
OMAP3_ISP_SBL_CSI2C_WRITE | \
OMAP3_ISP_SBL_CCDC_WRITE | \
OMAP3_ISP_SBL_PREVIEW_WRITE)
void omap3isp_sbl_enable(struct isp_device *isp, enum isp_sbl_resource res)
{
u32 sbl = 0;
isp->sbl_resources |= res;
if (isp->sbl_resources & OMAP3_ISP_SBL_CSI1_READ)
sbl |= ISPCTRL_SBL_SHARED_RPORTA;
if (isp->sbl_resources & OMAP3_ISP_SBL_CCDC_LSC_READ)
sbl |= ISPCTRL_SBL_SHARED_RPORTB;
if (isp->sbl_resources & OMAP3_ISP_SBL_CSI2C_WRITE)
sbl |= ISPCTRL_SBL_SHARED_WPORTC;
if (isp->sbl_resources & OMAP3_ISP_SBL_RESIZER_WRITE)
sbl |= ISPCTRL_SBL_WR0_RAM_EN;
if (isp->sbl_resources & OMAP3_ISP_SBL_WRITE)
sbl |= ISPCTRL_SBL_WR1_RAM_EN;
if (isp->sbl_resources & OMAP3_ISP_SBL_READ)
sbl |= ISPCTRL_SBL_RD_RAM_EN;
isp_reg_set(isp, OMAP3_ISP_IOMEM_MAIN, ISP_CTRL, sbl);
}
void omap3isp_sbl_disable(struct isp_device *isp, enum isp_sbl_resource res)
{
u32 sbl = 0;
isp->sbl_resources &= ~res;
if (!(isp->sbl_resources & OMAP3_ISP_SBL_CSI1_READ))
sbl |= ISPCTRL_SBL_SHARED_RPORTA;
if (!(isp->sbl_resources & OMAP3_ISP_SBL_CCDC_LSC_READ))
sbl |= ISPCTRL_SBL_SHARED_RPORTB;
if (!(isp->sbl_resources & OMAP3_ISP_SBL_CSI2C_WRITE))
sbl |= ISPCTRL_SBL_SHARED_WPORTC;
if (!(isp->sbl_resources & OMAP3_ISP_SBL_RESIZER_WRITE))
sbl |= ISPCTRL_SBL_WR0_RAM_EN;
if (!(isp->sbl_resources & OMAP3_ISP_SBL_WRITE))
sbl |= ISPCTRL_SBL_WR1_RAM_EN;
if (!(isp->sbl_resources & OMAP3_ISP_SBL_READ))
sbl |= ISPCTRL_SBL_RD_RAM_EN;
isp_reg_clr(isp, OMAP3_ISP_IOMEM_MAIN, ISP_CTRL, sbl);
}
/*
* isp_module_sync_idle - Helper to sync module with its idle state
* @me: ISP submodule's media entity
* @wait: ISP submodule's wait queue for streamoff/interrupt synchronization
* @stopping: flag which tells module wants to stop
*
* This function checks if ISP submodule needs to wait for next interrupt. If
* yes, makes the caller to sleep while waiting for such event.
*/
int omap3isp_module_sync_idle(struct media_entity *me, wait_queue_head_t *wait,
atomic_t *stopping)
{
struct isp_pipeline *pipe = to_isp_pipeline(me);
if (pipe->stream_state == ISP_PIPELINE_STREAM_STOPPED ||
(pipe->stream_state == ISP_PIPELINE_STREAM_SINGLESHOT &&
!isp_pipeline_ready(pipe)))
return 0;
/*
* atomic_set() doesn't include memory barrier on ARM platform for SMP
* scenario. We'll call it here to avoid race conditions.
*/
atomic_set(stopping, 1);
smp_mb();
/*
* If module is the last one, it's writing to memory. In this case,
* it's necessary to check if the module is already paused due to
* DMA queue underrun or if it has to wait for next interrupt to be
* idle.
* If it isn't the last one, the function won't sleep but *stopping
* will still be set to warn next submodule caller's interrupt the
* module wants to be idle.
*/
if (isp_pipeline_is_last(me)) {
struct isp_video *video = pipe->output;
unsigned long flags;
spin_lock_irqsave(&video->irqlock, flags);
if (video->dmaqueue_flags & ISP_VIDEO_DMAQUEUE_UNDERRUN) {
spin_unlock_irqrestore(&video->irqlock, flags);
atomic_set(stopping, 0);
smp_mb();
return 0;
}
spin_unlock_irqrestore(&video->irqlock, flags);
if (!wait_event_timeout(*wait, !atomic_read(stopping),
msecs_to_jiffies(1000))) {
atomic_set(stopping, 0);
smp_mb();
return -ETIMEDOUT;
}
}
return 0;
}
/*
* omap3isp_module_sync_is_stopping - Helper to verify if module was stopping
* @wait: ISP submodule's wait queue for streamoff/interrupt synchronization
* @stopping: flag which tells module wants to stop
*
* This function checks if ISP submodule was stopping. In case of yes, it
* notices the caller by setting stopping to 0 and waking up the wait queue.
* Returns 1 if it was stopping or 0 otherwise.
*/
int omap3isp_module_sync_is_stopping(wait_queue_head_t *wait,
atomic_t *stopping)
{
if (atomic_cmpxchg(stopping, 1, 0)) {
wake_up(wait);
return 1;
}
return 0;
}
/* --------------------------------------------------------------------------
* Clock management
*/
#define ISPCTRL_CLKS_MASK (ISPCTRL_H3A_CLK_EN | \
ISPCTRL_HIST_CLK_EN | \
ISPCTRL_RSZ_CLK_EN | \
(ISPCTRL_CCDC_CLK_EN | ISPCTRL_CCDC_RAM_EN) | \
(ISPCTRL_PREV_CLK_EN | ISPCTRL_PREV_RAM_EN))
static void __isp_subclk_update(struct isp_device *isp)
{
u32 clk = 0;
/* AEWB and AF share the same clock. */
if (isp->subclk_resources &
(OMAP3_ISP_SUBCLK_AEWB | OMAP3_ISP_SUBCLK_AF))
clk |= ISPCTRL_H3A_CLK_EN;
if (isp->subclk_resources & OMAP3_ISP_SUBCLK_HIST)
clk |= ISPCTRL_HIST_CLK_EN;
if (isp->subclk_resources & OMAP3_ISP_SUBCLK_RESIZER)
clk |= ISPCTRL_RSZ_CLK_EN;
/* NOTE: For CCDC & Preview submodules, we need to affect internal
* RAM as well.
*/
if (isp->subclk_resources & OMAP3_ISP_SUBCLK_CCDC)
clk |= ISPCTRL_CCDC_CLK_EN | ISPCTRL_CCDC_RAM_EN;
if (isp->subclk_resources & OMAP3_ISP_SUBCLK_PREVIEW)
clk |= ISPCTRL_PREV_CLK_EN | ISPCTRL_PREV_RAM_EN;
isp_reg_clr_set(isp, OMAP3_ISP_IOMEM_MAIN, ISP_CTRL,
ISPCTRL_CLKS_MASK, clk);
}
void omap3isp_subclk_enable(struct isp_device *isp,
enum isp_subclk_resource res)
{
isp->subclk_resources |= res;
__isp_subclk_update(isp);
}
void omap3isp_subclk_disable(struct isp_device *isp,
enum isp_subclk_resource res)
{
isp->subclk_resources &= ~res;
__isp_subclk_update(isp);
}
/*
* isp_enable_clocks - Enable ISP clocks
* @isp: OMAP3 ISP device
*
* Return 0 if successful, or clk_prepare_enable return value if any of them
* fails.
*/
static int isp_enable_clocks(struct isp_device *isp)
{
int r;
unsigned long rate;
r = clk_prepare_enable(isp->clock[ISP_CLK_CAM_ICK]);
if (r) {
dev_err(isp->dev, "failed to enable cam_ick clock\n");
goto out_clk_enable_ick;
}
r = clk_set_rate(isp->clock[ISP_CLK_CAM_MCLK], CM_CAM_MCLK_HZ);
if (r) {
dev_err(isp->dev, "clk_set_rate for cam_mclk failed\n");
goto out_clk_enable_mclk;
}
r = clk_prepare_enable(isp->clock[ISP_CLK_CAM_MCLK]);
if (r) {
dev_err(isp->dev, "failed to enable cam_mclk clock\n");
goto out_clk_enable_mclk;
}
rate = clk_get_rate(isp->clock[ISP_CLK_CAM_MCLK]);
if (rate != CM_CAM_MCLK_HZ)
dev_warn(isp->dev, "unexpected cam_mclk rate:\n"
" expected : %d\n"
" actual : %ld\n", CM_CAM_MCLK_HZ, rate);
r = clk_prepare_enable(isp->clock[ISP_CLK_CSI2_FCK]);
if (r) {
dev_err(isp->dev, "failed to enable csi2_fck clock\n");
goto out_clk_enable_csi2_fclk;
}
return 0;
out_clk_enable_csi2_fclk:
clk_disable_unprepare(isp->clock[ISP_CLK_CAM_MCLK]);
out_clk_enable_mclk:
clk_disable_unprepare(isp->clock[ISP_CLK_CAM_ICK]);
out_clk_enable_ick:
return r;
}
/*
* isp_disable_clocks - Disable ISP clocks
* @isp: OMAP3 ISP device
*/
static void isp_disable_clocks(struct isp_device *isp)
{
clk_disable_unprepare(isp->clock[ISP_CLK_CAM_ICK]);
clk_disable_unprepare(isp->clock[ISP_CLK_CAM_MCLK]);
clk_disable_unprepare(isp->clock[ISP_CLK_CSI2_FCK]);
}
static const char *isp_clocks[] = {
"cam_ick",
"cam_mclk",
"csi2_96m_fck",
"l3_ick",
};
static int isp_get_clocks(struct isp_device *isp)
{
struct clk *clk;
unsigned int i;
for (i = 0; i < ARRAY_SIZE(isp_clocks); ++i) {
clk = devm_clk_get(isp->dev, isp_clocks[i]);
if (IS_ERR(clk)) {
dev_err(isp->dev, "clk_get %s failed\n", isp_clocks[i]);
return PTR_ERR(clk);
}
isp->clock[i] = clk;
}
return 0;
}
/*
* omap3isp_get - Acquire the ISP resource.
*
* Initializes the clocks for the first acquire.
*
* Increment the reference count on the ISP. If the first reference is taken,
* enable clocks and power-up all submodules.
*
* Return a pointer to the ISP device structure, or NULL if an error occurred.
*/
static struct isp_device *__omap3isp_get(struct isp_device *isp, bool irq)
{
struct isp_device *__isp = isp;
if (isp == NULL)
return NULL;
mutex_lock(&isp->isp_mutex);
if (isp->ref_count > 0)
goto out;
if (isp_enable_clocks(isp) < 0) {
__isp = NULL;
goto out;
}
/* We don't want to restore context before saving it! */
if (isp->has_context)
isp_restore_ctx(isp);
if (irq)
isp_enable_interrupts(isp);
out:
if (__isp != NULL)
isp->ref_count++;
mutex_unlock(&isp->isp_mutex);
return __isp;
}
struct isp_device *omap3isp_get(struct isp_device *isp)
{
return __omap3isp_get(isp, true);
}
/*
* omap3isp_put - Release the ISP
*
* Decrement the reference count on the ISP. If the last reference is released,
* power-down all submodules, disable clocks and free temporary buffers.
*/
static void __omap3isp_put(struct isp_device *isp, bool save_ctx)
{
if (isp == NULL)
return;
mutex_lock(&isp->isp_mutex);
BUG_ON(isp->ref_count == 0);
if (--isp->ref_count == 0) {
isp_disable_interrupts(isp);
if (save_ctx) {
isp_save_ctx(isp);
isp->has_context = 1;
}
/* Reset the ISP if an entity has failed to stop. This is the
* only way to recover from such conditions.
*/
if (!media_entity_enum_empty(&isp->crashed) ||
isp->stop_failure)
isp_reset(isp);
isp_disable_clocks(isp);
}
mutex_unlock(&isp->isp_mutex);
}
void omap3isp_put(struct isp_device *isp)
{
__omap3isp_put(isp, true);
}
/* --------------------------------------------------------------------------
* Platform device driver
*/
/*
* omap3isp_print_status - Prints the values of the ISP Control Module registers
* @isp: OMAP3 ISP device
*/
#define ISP_PRINT_REGISTER(isp, name)\
dev_dbg(isp->dev, "###ISP " #name "=0x%08x\n", \
isp_reg_readl(isp, OMAP3_ISP_IOMEM_MAIN, ISP_##name))
#define SBL_PRINT_REGISTER(isp, name)\
dev_dbg(isp->dev, "###SBL " #name "=0x%08x\n", \
isp_reg_readl(isp, OMAP3_ISP_IOMEM_SBL, ISPSBL_##name))
void omap3isp_print_status(struct isp_device *isp)
{
dev_dbg(isp->dev, "-------------ISP Register dump--------------\n");
ISP_PRINT_REGISTER(isp, SYSCONFIG);
ISP_PRINT_REGISTER(isp, SYSSTATUS);
ISP_PRINT_REGISTER(isp, IRQ0ENABLE);
ISP_PRINT_REGISTER(isp, IRQ0STATUS);
ISP_PRINT_REGISTER(isp, TCTRL_GRESET_LENGTH);
ISP_PRINT_REGISTER(isp, TCTRL_PSTRB_REPLAY);
ISP_PRINT_REGISTER(isp, CTRL);
ISP_PRINT_REGISTER(isp, TCTRL_CTRL);
ISP_PRINT_REGISTER(isp, TCTRL_FRAME);
ISP_PRINT_REGISTER(isp, TCTRL_PSTRB_DELAY);
ISP_PRINT_REGISTER(isp, TCTRL_STRB_DELAY);
ISP_PRINT_REGISTER(isp, TCTRL_SHUT_DELAY);
ISP_PRINT_REGISTER(isp, TCTRL_PSTRB_LENGTH);
ISP_PRINT_REGISTER(isp, TCTRL_STRB_LENGTH);
ISP_PRINT_REGISTER(isp, TCTRL_SHUT_LENGTH);
SBL_PRINT_REGISTER(isp, PCR);
SBL_PRINT_REGISTER(isp, SDR_REQ_EXP);
dev_dbg(isp->dev, "--------------------------------------------\n");
}
#ifdef CONFIG_PM
/*
* Power management support.
*
* As the ISP can't properly handle an input video stream interruption on a non
* frame boundary, the ISP pipelines need to be stopped before sensors get
* suspended. However, as suspending the sensors can require a running clock,
* which can be provided by the ISP, the ISP can't be completely suspended
* before the sensor.
*
* To solve this problem power management support is split into prepare/complete
* and suspend/resume operations. The pipelines are stopped in prepare() and the
* ISP clocks get disabled in suspend(). Similarly, the clocks are re-enabled in
* resume(), and the the pipelines are restarted in complete().
*
* TODO: PM dependencies between the ISP and sensors are not modelled explicitly
* yet.
*/
static int isp_pm_prepare(struct device *dev)
{
struct isp_device *isp = dev_get_drvdata(dev);
int reset;
WARN_ON(mutex_is_locked(&isp->isp_mutex));
if (isp->ref_count == 0)
return 0;
reset = isp_suspend_modules(isp);
isp_disable_interrupts(isp);
isp_save_ctx(isp);
if (reset)
isp_reset(isp);
return 0;
}
static int isp_pm_suspend(struct device *dev)
{
struct isp_device *isp = dev_get_drvdata(dev);
WARN_ON(mutex_is_locked(&isp->isp_mutex));
if (isp->ref_count)
isp_disable_clocks(isp);
return 0;
}
static int isp_pm_resume(struct device *dev)
{
struct isp_device *isp = dev_get_drvdata(dev);
if (isp->ref_count == 0)
return 0;
return isp_enable_clocks(isp);
}
static void isp_pm_complete(struct device *dev)
{
struct isp_device *isp = dev_get_drvdata(dev);
if (isp->ref_count == 0)
return;
isp_restore_ctx(isp);
isp_enable_interrupts(isp);
isp_resume_modules(isp);
}
#else
#define isp_pm_prepare NULL
#define isp_pm_suspend NULL
#define isp_pm_resume NULL
#define isp_pm_complete NULL
#endif /* CONFIG_PM */
static void isp_unregister_entities(struct isp_device *isp)
{
media_device_unregister(&isp->media_dev);
omap3isp_csi2_unregister_entities(&isp->isp_csi2a);
omap3isp_ccp2_unregister_entities(&isp->isp_ccp2);
omap3isp_ccdc_unregister_entities(&isp->isp_ccdc);
omap3isp_preview_unregister_entities(&isp->isp_prev);
omap3isp_resizer_unregister_entities(&isp->isp_res);
omap3isp_stat_unregister_entities(&isp->isp_aewb);
omap3isp_stat_unregister_entities(&isp->isp_af);
omap3isp_stat_unregister_entities(&isp->isp_hist);
v4l2_device_unregister(&isp->v4l2_dev);
media_device_cleanup(&isp->media_dev);
}
static int isp_link_entity(
struct isp_device *isp, struct media_entity *entity,
enum isp_interface_type interface)
{
struct media_entity *input;
unsigned int flags;
unsigned int pad;
unsigned int i;
/* Connect the sensor to the correct interface module.
* Parallel sensors are connected directly to the CCDC, while
* serial sensors are connected to the CSI2a, CCP2b or CSI2c
* receiver through CSIPHY1 or CSIPHY2.
*/
switch (interface) {
case ISP_INTERFACE_PARALLEL:
input = &isp->isp_ccdc.subdev.entity;
pad = CCDC_PAD_SINK;
flags = 0;
break;
case ISP_INTERFACE_CSI2A_PHY2:
input = &isp->isp_csi2a.subdev.entity;
pad = CSI2_PAD_SINK;
flags = MEDIA_LNK_FL_IMMUTABLE | MEDIA_LNK_FL_ENABLED;
break;
case ISP_INTERFACE_CCP2B_PHY1:
case ISP_INTERFACE_CCP2B_PHY2:
input = &isp->isp_ccp2.subdev.entity;
pad = CCP2_PAD_SINK;
flags = 0;
break;
case ISP_INTERFACE_CSI2C_PHY1:
input = &isp->isp_csi2c.subdev.entity;
pad = CSI2_PAD_SINK;
flags = MEDIA_LNK_FL_IMMUTABLE | MEDIA_LNK_FL_ENABLED;
break;
default:
dev_err(isp->dev, "%s: invalid interface type %u\n", __func__,
interface);
return -EINVAL;
}
/*
* Not all interfaces are available on all revisions of the
* ISP. The sub-devices of those interfaces aren't initialised
* in such a case. Check this by ensuring the num_pads is
* non-zero.
*/
if (!input->num_pads) {
dev_err(isp->dev, "%s: invalid input %u\n", entity->name,
interface);
return -EINVAL;
}
for (i = 0; i < entity->num_pads; i++) {
if (entity->pads[i].flags & MEDIA_PAD_FL_SOURCE)
break;
}
if (i == entity->num_pads) {
dev_err(isp->dev, "%s: no source pad in external entity %s\n",
__func__, entity->name);
return -EINVAL;
}
return media_create_pad_link(entity, i, input, pad, flags);
}
static int isp_register_entities(struct isp_device *isp)
{
int ret;
isp->media_dev.dev = isp->dev;
strscpy(isp->media_dev.model, "TI OMAP3 ISP",
sizeof(isp->media_dev.model));
isp->media_dev.hw_revision = isp->revision;
isp->media_dev.ops = &isp_media_ops;
media_device_init(&isp->media_dev);
isp->v4l2_dev.mdev = &isp->media_dev;
ret = v4l2_device_register(isp->dev, &isp->v4l2_dev);
if (ret < 0) {
dev_err(isp->dev, "%s: V4L2 device registration failed (%d)\n",
__func__, ret);
goto done;
}
/* Register internal entities */
ret = omap3isp_ccp2_register_entities(&isp->isp_ccp2, &isp->v4l2_dev);
if (ret < 0)
goto done;
ret = omap3isp_csi2_register_entities(&isp->isp_csi2a, &isp->v4l2_dev);
if (ret < 0)
goto done;
ret = omap3isp_ccdc_register_entities(&isp->isp_ccdc, &isp->v4l2_dev);
if (ret < 0)
goto done;
ret = omap3isp_preview_register_entities(&isp->isp_prev,
&isp->v4l2_dev);
if (ret < 0)
goto done;
ret = omap3isp_resizer_register_entities(&isp->isp_res, &isp->v4l2_dev);
if (ret < 0)
goto done;
ret = omap3isp_stat_register_entities(&isp->isp_aewb, &isp->v4l2_dev);
if (ret < 0)
goto done;
ret = omap3isp_stat_register_entities(&isp->isp_af, &isp->v4l2_dev);
if (ret < 0)
goto done;
ret = omap3isp_stat_register_entities(&isp->isp_hist, &isp->v4l2_dev);
if (ret < 0)
goto done;
done:
if (ret < 0)
isp_unregister_entities(isp);
return ret;
}
/*
* isp_create_links() - Create links for internal and external ISP entities
* @isp : Pointer to ISP device
*
* This function creates all links between ISP internal and external entities.
*
* Return: A negative error code on failure or zero on success. Possible error
* codes are those returned by media_create_pad_link().
*/
static int isp_create_links(struct isp_device *isp)
{
int ret;
/* Create links between entities and video nodes. */
ret = media_create_pad_link(
&isp->isp_csi2a.subdev.entity, CSI2_PAD_SOURCE,
&isp->isp_csi2a.video_out.video.entity, 0, 0);
if (ret < 0)
return ret;
ret = media_create_pad_link(
&isp->isp_ccp2.video_in.video.entity, 0,
&isp->isp_ccp2.subdev.entity, CCP2_PAD_SINK, 0);
if (ret < 0)
return ret;
ret = media_create_pad_link(
&isp->isp_ccdc.subdev.entity, CCDC_PAD_SOURCE_OF,
&isp->isp_ccdc.video_out.video.entity, 0, 0);
if (ret < 0)
return ret;
ret = media_create_pad_link(
&isp->isp_prev.video_in.video.entity, 0,
&isp->isp_prev.subdev.entity, PREV_PAD_SINK, 0);
if (ret < 0)
return ret;
ret = media_create_pad_link(
&isp->isp_prev.subdev.entity, PREV_PAD_SOURCE,
&isp->isp_prev.video_out.video.entity, 0, 0);
if (ret < 0)
return ret;
ret = media_create_pad_link(
&isp->isp_res.video_in.video.entity, 0,
&isp->isp_res.subdev.entity, RESZ_PAD_SINK, 0);
if (ret < 0)
return ret;
ret = media_create_pad_link(
&isp->isp_res.subdev.entity, RESZ_PAD_SOURCE,
&isp->isp_res.video_out.video.entity, 0, 0);
if (ret < 0)
return ret;
/* Create links between entities. */
ret = media_create_pad_link(
&isp->isp_csi2a.subdev.entity, CSI2_PAD_SOURCE,
&isp->isp_ccdc.subdev.entity, CCDC_PAD_SINK, 0);
if (ret < 0)
return ret;
ret = media_create_pad_link(
&isp->isp_ccp2.subdev.entity, CCP2_PAD_SOURCE,
&isp->isp_ccdc.subdev.entity, CCDC_PAD_SINK, 0);
if (ret < 0)
return ret;
ret = media_create_pad_link(
&isp->isp_ccdc.subdev.entity, CCDC_PAD_SOURCE_VP,
&isp->isp_prev.subdev.entity, PREV_PAD_SINK, 0);
if (ret < 0)
return ret;
ret = media_create_pad_link(
&isp->isp_ccdc.subdev.entity, CCDC_PAD_SOURCE_OF,
&isp->isp_res.subdev.entity, RESZ_PAD_SINK, 0);
if (ret < 0)
return ret;
ret = media_create_pad_link(
&isp->isp_prev.subdev.entity, PREV_PAD_SOURCE,
&isp->isp_res.subdev.entity, RESZ_PAD_SINK, 0);
if (ret < 0)
return ret;
ret = media_create_pad_link(
&isp->isp_ccdc.subdev.entity, CCDC_PAD_SOURCE_VP,
&isp->isp_aewb.subdev.entity, 0,
MEDIA_LNK_FL_ENABLED | MEDIA_LNK_FL_IMMUTABLE);
if (ret < 0)
return ret;
ret = media_create_pad_link(
&isp->isp_ccdc.subdev.entity, CCDC_PAD_SOURCE_VP,
&isp->isp_af.subdev.entity, 0,
MEDIA_LNK_FL_ENABLED | MEDIA_LNK_FL_IMMUTABLE);
if (ret < 0)
return ret;
ret = media_create_pad_link(
&isp->isp_ccdc.subdev.entity, CCDC_PAD_SOURCE_VP,
&isp->isp_hist.subdev.entity, 0,
MEDIA_LNK_FL_ENABLED | MEDIA_LNK_FL_IMMUTABLE);
if (ret < 0)
return ret;
return 0;
}
static void isp_cleanup_modules(struct isp_device *isp)
{
omap3isp_h3a_aewb_cleanup(isp);
omap3isp_h3a_af_cleanup(isp);
omap3isp_hist_cleanup(isp);
omap3isp_resizer_cleanup(isp);
omap3isp_preview_cleanup(isp);
omap3isp_ccdc_cleanup(isp);
omap3isp_ccp2_cleanup(isp);
omap3isp_csi2_cleanup(isp);
omap3isp_csiphy_cleanup(isp);
}
static int isp_initialize_modules(struct isp_device *isp)
{
int ret;
ret = omap3isp_csiphy_init(isp);
if (ret < 0) {
dev_err(isp->dev, "CSI PHY initialization failed\n");
return ret;
}
ret = omap3isp_csi2_init(isp);
if (ret < 0) {
dev_err(isp->dev, "CSI2 initialization failed\n");
goto error_csi2;
}
ret = omap3isp_ccp2_init(isp);
if (ret < 0) {
if (ret != -EPROBE_DEFER)
dev_err(isp->dev, "CCP2 initialization failed\n");
goto error_ccp2;
}
ret = omap3isp_ccdc_init(isp);
if (ret < 0) {
dev_err(isp->dev, "CCDC initialization failed\n");
goto error_ccdc;
}
ret = omap3isp_preview_init(isp);
if (ret < 0) {
dev_err(isp->dev, "Preview initialization failed\n");
goto error_preview;
}
ret = omap3isp_resizer_init(isp);
if (ret < 0) {
dev_err(isp->dev, "Resizer initialization failed\n");
goto error_resizer;
}
ret = omap3isp_hist_init(isp);
if (ret < 0) {
dev_err(isp->dev, "Histogram initialization failed\n");
goto error_hist;
}
ret = omap3isp_h3a_aewb_init(isp);
if (ret < 0) {
dev_err(isp->dev, "H3A AEWB initialization failed\n");
goto error_h3a_aewb;
}
ret = omap3isp_h3a_af_init(isp);
if (ret < 0) {
dev_err(isp->dev, "H3A AF initialization failed\n");
goto error_h3a_af;
}
return 0;
error_h3a_af:
omap3isp_h3a_aewb_cleanup(isp);
error_h3a_aewb:
omap3isp_hist_cleanup(isp);
error_hist:
omap3isp_resizer_cleanup(isp);
error_resizer:
omap3isp_preview_cleanup(isp);
error_preview:
omap3isp_ccdc_cleanup(isp);
error_ccdc:
omap3isp_ccp2_cleanup(isp);
error_ccp2:
omap3isp_csi2_cleanup(isp);
error_csi2:
omap3isp_csiphy_cleanup(isp);
return ret;
}
static void isp_detach_iommu(struct isp_device *isp)
{
#ifdef CONFIG_ARM_DMA_USE_IOMMU
arm_iommu_detach_device(isp->dev);
arm_iommu_release_mapping(isp->mapping);
isp->mapping = NULL;
#endif
}
static int isp_attach_iommu(struct isp_device *isp)
{
#ifdef CONFIG_ARM_DMA_USE_IOMMU
struct dma_iommu_mapping *mapping;
int ret;
/*
* Create the ARM mapping, used by the ARM DMA mapping core to allocate
* VAs. This will allocate a corresponding IOMMU domain.
*/
mapping = arm_iommu_create_mapping(&platform_bus_type, SZ_1G, SZ_2G);
if (IS_ERR(mapping)) {
dev_err(isp->dev, "failed to create ARM IOMMU mapping\n");
return PTR_ERR(mapping);
}
isp->mapping = mapping;
/* Attach the ARM VA mapping to the device. */
ret = arm_iommu_attach_device(isp->dev, mapping);
if (ret < 0) {
dev_err(isp->dev, "failed to attach device to VA mapping\n");
goto error;
}
return 0;
error:
arm_iommu_release_mapping(isp->mapping);
isp->mapping = NULL;
return ret;
#else
return -ENODEV;
#endif
}
/*
* isp_remove - Remove ISP platform device
* @pdev: Pointer to ISP platform device
*
* Always returns 0.
*/
static int isp_remove(struct platform_device *pdev)
{
struct isp_device *isp = platform_get_drvdata(pdev);
v4l2_async_notifier_unregister(&isp->notifier);
isp_unregister_entities(isp);
isp_cleanup_modules(isp);
isp_xclk_cleanup(isp);
__omap3isp_get(isp, false);
isp_detach_iommu(isp);
__omap3isp_put(isp, false);
media_entity_enum_cleanup(&isp->crashed);
v4l2_async_notifier_cleanup(&isp->notifier);
kfree(isp);
return 0;
}
enum isp_of_phy {
ISP_OF_PHY_PARALLEL = 0,
ISP_OF_PHY_CSIPHY1,
ISP_OF_PHY_CSIPHY2,
};
static int isp_fwnode_parse(struct device *dev,
struct v4l2_fwnode_endpoint *vep,
struct v4l2_async_subdev *asd)
{
struct isp_async_subdev *isd =
container_of(asd, struct isp_async_subdev, asd);
struct isp_bus_cfg *buscfg = &isd->bus;
bool csi1 = false;
unsigned int i;
dev_dbg(dev, "parsing endpoint %pOF, interface %u\n",
to_of_node(vep->base.local_fwnode), vep->base.port);
switch (vep->base.port) {
case ISP_OF_PHY_PARALLEL:
buscfg->interface = ISP_INTERFACE_PARALLEL;
buscfg->bus.parallel.data_lane_shift =
vep->bus.parallel.data_shift;
buscfg->bus.parallel.clk_pol =
!!(vep->bus.parallel.flags
& V4L2_MBUS_PCLK_SAMPLE_FALLING);
buscfg->bus.parallel.hs_pol =
!!(vep->bus.parallel.flags & V4L2_MBUS_VSYNC_ACTIVE_LOW);
buscfg->bus.parallel.vs_pol =
!!(vep->bus.parallel.flags & V4L2_MBUS_HSYNC_ACTIVE_LOW);
buscfg->bus.parallel.fld_pol =
!!(vep->bus.parallel.flags & V4L2_MBUS_FIELD_EVEN_LOW);
buscfg->bus.parallel.data_pol =
!!(vep->bus.parallel.flags & V4L2_MBUS_DATA_ACTIVE_LOW);
buscfg->bus.parallel.bt656 = vep->bus_type == V4L2_MBUS_BT656;
break;
case ISP_OF_PHY_CSIPHY1:
case ISP_OF_PHY_CSIPHY2:
switch (vep->bus_type) {
case V4L2_MBUS_CCP2:
case V4L2_MBUS_CSI1:
dev_dbg(dev, "CSI-1/CCP-2 configuration\n");
csi1 = true;
break;
case V4L2_MBUS_CSI2_DPHY:
dev_dbg(dev, "CSI-2 configuration\n");
csi1 = false;
break;
default:
dev_err(dev, "unsupported bus type %u\n",
vep->bus_type);
return -EINVAL;
}
switch (vep->base.port) {
case ISP_OF_PHY_CSIPHY1:
if (csi1)
buscfg->interface = ISP_INTERFACE_CCP2B_PHY1;
else
buscfg->interface = ISP_INTERFACE_CSI2C_PHY1;
break;
case ISP_OF_PHY_CSIPHY2:
if (csi1)
buscfg->interface = ISP_INTERFACE_CCP2B_PHY2;
else
buscfg->interface = ISP_INTERFACE_CSI2A_PHY2;
break;
}
if (csi1) {
buscfg->bus.ccp2.lanecfg.clk.pos =
vep->bus.mipi_csi1.clock_lane;
buscfg->bus.ccp2.lanecfg.clk.pol =
vep->bus.mipi_csi1.lane_polarity[0];
dev_dbg(dev, "clock lane polarity %u, pos %u\n",
buscfg->bus.ccp2.lanecfg.clk.pol,
buscfg->bus.ccp2.lanecfg.clk.pos);
buscfg->bus.ccp2.lanecfg.data[0].pos =
vep->bus.mipi_csi1.data_lane;
buscfg->bus.ccp2.lanecfg.data[0].pol =
vep->bus.mipi_csi1.lane_polarity[1];
dev_dbg(dev, "data lane polarity %u, pos %u\n",
buscfg->bus.ccp2.lanecfg.data[0].pol,
buscfg->bus.ccp2.lanecfg.data[0].pos);
buscfg->bus.ccp2.strobe_clk_pol =
vep->bus.mipi_csi1.clock_inv;
buscfg->bus.ccp2.phy_layer = vep->bus.mipi_csi1.strobe;
buscfg->bus.ccp2.ccp2_mode =
vep->bus_type == V4L2_MBUS_CCP2;
buscfg->bus.ccp2.vp_clk_pol = 1;
buscfg->bus.ccp2.crc = 1;
} else {
buscfg->bus.csi2.lanecfg.clk.pos =
vep->bus.mipi_csi2.clock_lane;
buscfg->bus.csi2.lanecfg.clk.pol =
vep->bus.mipi_csi2.lane_polarities[0];
dev_dbg(dev, "clock lane polarity %u, pos %u\n",
buscfg->bus.csi2.lanecfg.clk.pol,
buscfg->bus.csi2.lanecfg.clk.pos);
buscfg->bus.csi2.num_data_lanes =
vep->bus.mipi_csi2.num_data_lanes;
for (i = 0; i < buscfg->bus.csi2.num_data_lanes; i++) {
buscfg->bus.csi2.lanecfg.data[i].pos =
vep->bus.mipi_csi2.data_lanes[i];
buscfg->bus.csi2.lanecfg.data[i].pol =
vep->bus.mipi_csi2.lane_polarities[i + 1];
dev_dbg(dev,
"data lane %u polarity %u, pos %u\n", i,
buscfg->bus.csi2.lanecfg.data[i].pol,
buscfg->bus.csi2.lanecfg.data[i].pos);
}
/*
* FIXME: now we assume the CRC is always there.
* Implement a way to obtain this information from the
* sensor. Frame descriptors, perhaps?
*/
buscfg->bus.csi2.crc = 1;
}
break;
default:
dev_warn(dev, "%pOF: invalid interface %u\n",
to_of_node(vep->base.local_fwnode), vep->base.port);
return -EINVAL;
}
return 0;
}
static int isp_subdev_notifier_complete(struct v4l2_async_notifier *async)
{
struct isp_device *isp = container_of(async, struct isp_device,
notifier);
struct v4l2_device *v4l2_dev = &isp->v4l2_dev;
struct v4l2_subdev *sd;
int ret;
ret = media_entity_enum_init(&isp->crashed, &isp->media_dev);
if (ret)
return ret;
list_for_each_entry(sd, &v4l2_dev->subdevs, list) {
if (sd->notifier != &isp->notifier)
continue;
ret = isp_link_entity(isp, &sd->entity,
v4l2_subdev_to_bus_cfg(sd)->interface);
if (ret < 0)
return ret;
}
ret = v4l2_device_register_subdev_nodes(&isp->v4l2_dev);
if (ret < 0)
return ret;
return media_device_register(&isp->media_dev);
}
static const struct v4l2_async_notifier_operations isp_subdev_notifier_ops = {
.complete = isp_subdev_notifier_complete,
};
/*
* isp_probe - Probe ISP platform device
* @pdev: Pointer to ISP platform device
*
* Returns 0 if successful,
* -ENOMEM if no memory available,
* -ENODEV if no platform device resources found
* or no space for remapping registers,
* -EINVAL if couldn't install ISR,
* or clk_get return error value.
*/
static int isp_probe(struct platform_device *pdev)
{
struct isp_device *isp;
struct resource *mem;
int ret;
int i, m;
isp = kzalloc(sizeof(*isp), GFP_KERNEL);
if (!isp) {
dev_err(&pdev->dev, "could not allocate memory\n");
return -ENOMEM;
}
ret = fwnode_property_read_u32(of_fwnode_handle(pdev->dev.of_node),
"ti,phy-type", &isp->phy_type);
if (ret)
goto error_release_isp;
isp->syscon = syscon_regmap_lookup_by_phandle(pdev->dev.of_node,
"syscon");
if (IS_ERR(isp->syscon)) {
ret = PTR_ERR(isp->syscon);
goto error_release_isp;
}
ret = of_property_read_u32_index(pdev->dev.of_node,
"syscon", 1, &isp->syscon_offset);
if (ret)
goto error_release_isp;
isp->autoidle = autoidle;
mutex_init(&isp->isp_mutex);
spin_lock_init(&isp->stat_lock);
v4l2_async_notifier_init(&isp->notifier);
ret = v4l2_async_notifier_parse_fwnode_endpoints(
&pdev->dev, &isp->notifier, sizeof(struct isp_async_subdev),
isp_fwnode_parse);
if (ret < 0)
goto error;
isp->dev = &pdev->dev;
isp->ref_count = 0;
ret = dma_coerce_mask_and_coherent(isp->dev, DMA_BIT_MASK(32));
if (ret)
goto error;
platform_set_drvdata(pdev, isp);
/* Regulators */
isp->isp_csiphy1.vdd = devm_regulator_get(&pdev->dev, "vdd-csiphy1");
isp->isp_csiphy2.vdd = devm_regulator_get(&pdev->dev, "vdd-csiphy2");
/* Clocks
*
* The ISP clock tree is revision-dependent. We thus need to enable ICLK
* manually to read the revision before calling __omap3isp_get().
*
* Start by mapping the ISP MMIO area, which is in two pieces.
* The ISP IOMMU is in between. Map both now, and fill in the
* ISP revision specific portions a little later in the
* function.
*/
for (i = 0; i < 2; i++) {
unsigned int map_idx = i ? OMAP3_ISP_IOMEM_CSI2A_REGS1 : 0;
mem = platform_get_resource(pdev, IORESOURCE_MEM, i);
isp->mmio_base[map_idx] =
devm_ioremap_resource(isp->dev, mem);
if (IS_ERR(isp->mmio_base[map_idx]))
return PTR_ERR(isp->mmio_base[map_idx]);
}
ret = isp_get_clocks(isp);
if (ret < 0)
goto error;
ret = clk_enable(isp->clock[ISP_CLK_CAM_ICK]);
if (ret < 0)
goto error;
isp->revision = isp_reg_readl(isp, OMAP3_ISP_IOMEM_MAIN, ISP_REVISION);
dev_info(isp->dev, "Revision %d.%d found\n",
(isp->revision & 0xf0) >> 4, isp->revision & 0x0f);
clk_disable(isp->clock[ISP_CLK_CAM_ICK]);
if (__omap3isp_get(isp, false) == NULL) {
ret = -ENODEV;
goto error;
}
ret = isp_reset(isp);
if (ret < 0)
goto error_isp;
ret = isp_xclk_init(isp);
if (ret < 0)
goto error_isp;
/* Memory resources */
for (m = 0; m < ARRAY_SIZE(isp_res_maps); m++)
if (isp->revision == isp_res_maps[m].isp_rev)
break;
if (m == ARRAY_SIZE(isp_res_maps)) {
dev_err(isp->dev, "No resource map found for ISP rev %d.%d\n",
(isp->revision & 0xf0) >> 4, isp->revision & 0xf);
ret = -ENODEV;
goto error_isp;
}
for (i = 1; i < OMAP3_ISP_IOMEM_CSI2A_REGS1; i++)
isp->mmio_base[i] =
isp->mmio_base[0] + isp_res_maps[m].offset[i];
for (i = OMAP3_ISP_IOMEM_CSIPHY2; i < OMAP3_ISP_IOMEM_LAST; i++)
isp->mmio_base[i] =
isp->mmio_base[OMAP3_ISP_IOMEM_CSI2A_REGS1]
+ isp_res_maps[m].offset[i];
isp->mmio_hist_base_phys =
mem->start + isp_res_maps[m].offset[OMAP3_ISP_IOMEM_HIST];
/* IOMMU */
ret = isp_attach_iommu(isp);
if (ret < 0) {
dev_err(&pdev->dev, "unable to attach to IOMMU\n");
goto error_isp;
}
/* Interrupt */
ret = platform_get_irq(pdev, 0);
if (ret <= 0) {
dev_err(isp->dev, "No IRQ resource\n");
ret = -ENODEV;
goto error_iommu;
}
isp->irq_num = ret;
if (devm_request_irq(isp->dev, isp->irq_num, isp_isr, IRQF_SHARED,
"OMAP3 ISP", isp)) {
dev_err(isp->dev, "Unable to request IRQ\n");
ret = -EINVAL;
goto error_iommu;
}
/* Entities */
ret = isp_initialize_modules(isp);
if (ret < 0)
goto error_iommu;
ret = isp_register_entities(isp);
if (ret < 0)
goto error_modules;
ret = isp_create_links(isp);
if (ret < 0)
goto error_register_entities;
isp->notifier.ops = &isp_subdev_notifier_ops;
ret = v4l2_async_notifier_register(&isp->v4l2_dev, &isp->notifier);
if (ret)
goto error_register_entities;
isp_core_init(isp, 1);
omap3isp_put(isp);
return 0;
error_register_entities:
isp_unregister_entities(isp);
error_modules:
isp_cleanup_modules(isp);
error_iommu:
isp_detach_iommu(isp);
error_isp:
isp_xclk_cleanup(isp);
__omap3isp_put(isp, false);
error:
v4l2_async_notifier_cleanup(&isp->notifier);
mutex_destroy(&isp->isp_mutex);
error_release_isp:
kfree(isp);
return ret;
}
static const struct dev_pm_ops omap3isp_pm_ops = {
.prepare = isp_pm_prepare,
.suspend = isp_pm_suspend,
.resume = isp_pm_resume,
.complete = isp_pm_complete,
};
static const struct platform_device_id omap3isp_id_table[] = {
{ "omap3isp", 0 },
{ },
};
MODULE_DEVICE_TABLE(platform, omap3isp_id_table);
static const struct of_device_id omap3isp_of_table[] = {
{ .compatible = "ti,omap3-isp" },
{ },
};
MODULE_DEVICE_TABLE(of, omap3isp_of_table);
static struct platform_driver omap3isp_driver = {
.probe = isp_probe,
.remove = isp_remove,
.id_table = omap3isp_id_table,
.driver = {
.name = "omap3isp",
.pm = &omap3isp_pm_ops,
.of_match_table = omap3isp_of_table,
},
};
module_platform_driver(omap3isp_driver);
MODULE_AUTHOR("Nokia Corporation");
MODULE_DESCRIPTION("TI OMAP3 ISP driver");
MODULE_LICENSE("GPL");
MODULE_VERSION(ISP_VIDEO_DRIVER_VERSION);
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