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ab996a3ace390c47c85b393173f95707d3755099
android_kernel_samsung_sm86…/drivers/cam_ope/cam_ope_context.c
Trishansh Bhardwaj 7aa0932eeb msm: camera: common: Merge camera-kernel.3.1 changes in camera-kernel.4.0 
msm: camera: ope: Fix OPE hang dump
msm: camera: cdm: Add a check for fifo list in cdm workqueue
msm: camera: ope: Add a check to validate dmi cmd address
msm: camera: ope: Add check for number of stripe
msm: camera: tfe: Support tfe pdaf port
msm: camera: ope: Handle reset IRQ delay
msm: camera: ope: enable pp modules hw status dump
msm: camera: ope: Fix OPE clock issue
msm: camera: ope: Add LDAR dump support
msm: camera: ope: Add context state check in process cmd
msm: camera: ope: Change parameters to find time difference
msm: camera: ope: Add debug fs for dumping frame setting logs
msm: camera: ope: Add debugfs support to dump ope hang dump
msm: camera: tfe: Handle unsupported outport format
msm: camera: ope: add page fault handlers in ope driver
msm: camera: ope: Reduce OPE BUS memory
msm: camera: ope: Change turbo clock limit.

CRs-Fixed: 2729996
Change-Id: I683ed07082b455599f89dbc18f353b6a1e48b129
Signed-off-by: Trishansh Bhardwaj <tbhardwa@codeaurora.org>
2020-08-30 14:22:47 +05:30

289 lines
6.3 KiB
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// SPDX-License-Identifier: GPL-2.0-only
/*
* Copyright (c) 2019-2020, The Linux Foundation. All rights reserved.
*/
#include <linux/debugfs.h>
#include <linux/videodev2.h>
#include <linux/slab.h>
#include <linux/uaccess.h>
#include <media/cam_sync.h>
#include <media/cam_defs.h>
#include <media/cam_ope.h>
#include "cam_sync_api.h"
#include "cam_node.h"
#include "cam_context.h"
#include "cam_context_utils.h"
#include "cam_ope_context.h"
#include "cam_req_mgr_util.h"
#include "cam_mem_mgr.h"
#include "cam_trace.h"
#include "cam_debug_util.h"
#include "cam_packet_util.h"
static const char ope_dev_name[] = "cam-ope";
static int cam_ope_context_dump_active_request(void *data,
struct cam_smmu_pf_info *pf_info)
{
struct cam_context *ctx = (struct cam_context *)data;
struct cam_ctx_request *req = NULL;
struct cam_ctx_request *req_temp = NULL;
struct cam_hw_mgr_dump_pf_data *pf_dbg_entry = NULL;
uint32_t resource_type = 0;
int rc = 0;
bool b_mem_found = false, b_ctx_found = false;
if (!ctx) {
CAM_ERR(CAM_OPE, "Invalid ctx");
return -EINVAL;
}
mutex_lock(&ctx->ctx_mutex);
if (ctx->state < CAM_CTX_ACQUIRED || ctx->state > CAM_CTX_ACTIVATED) {
CAM_ERR(CAM_OPE, "Invalid state ope ctx %d state %d",
ctx->ctx_id, ctx->state);
goto end;
}
CAM_INFO(CAM_OPE, "iommu fault for ope ctx %d state %d",
ctx->ctx_id, ctx->state);
list_for_each_entry_safe(req, req_temp,
&ctx->active_req_list, list) {
pf_dbg_entry = &(req->pf_data);
CAM_INFO(CAM_OPE, "req_id : %lld", req->request_id);
rc = cam_context_dump_pf_info_to_hw(ctx, pf_dbg_entry->packet,
&b_mem_found, &b_ctx_found, &resource_type, pf_info);
if (rc)
CAM_ERR(CAM_OPE, "Failed to dump pf info");
if (b_mem_found)
CAM_ERR(CAM_OPE, "Found page fault in req %lld %d",
req->request_id, rc);
}
end:
mutex_unlock(&ctx->ctx_mutex);
return rc;
}
static int __cam_ope_acquire_dev_in_available(struct cam_context *ctx,
struct cam_acquire_dev_cmd *cmd)
{
int rc;
rc = cam_context_acquire_dev_to_hw(ctx, cmd);
if (!rc) {
ctx->state = CAM_CTX_ACQUIRED;
trace_cam_context_state("OPE", ctx);
}
return rc;
}
static int __cam_ope_release_dev_in_acquired(struct cam_context *ctx,
struct cam_release_dev_cmd *cmd)
{
int rc;
rc = cam_context_release_dev_to_hw(ctx, cmd);
if (rc)
CAM_ERR(CAM_OPE, "Unable to release device");
ctx->state = CAM_CTX_AVAILABLE;
trace_cam_context_state("OPE", ctx);
return rc;
}
static int __cam_ope_start_dev_in_acquired(struct cam_context *ctx,
struct cam_start_stop_dev_cmd *cmd)
{
int rc;
rc = cam_context_start_dev_to_hw(ctx, cmd);
if (!rc) {
ctx->state = CAM_CTX_READY;
trace_cam_context_state("OPE", ctx);
}
return rc;
}
static int __cam_ope_flush_dev_in_ready(struct cam_context *ctx,
struct cam_flush_dev_cmd *cmd)
{
int rc;
rc = cam_context_flush_dev_to_hw(ctx, cmd);
if (rc)
CAM_ERR(CAM_OPE, "Failed to flush device");
return rc;
}
static int __cam_ope_dump_dev_in_ready(struct cam_context *ctx,
struct cam_dump_req_cmd *cmd)
{
int rc;
rc = cam_context_dump_dev_to_hw(ctx, cmd);
if (rc)
CAM_ERR(CAM_OPE, "Failed to dump device");
return rc;
}
static int __cam_ope_config_dev_in_ready(struct cam_context *ctx,
struct cam_config_dev_cmd *cmd)
{
int rc;
size_t len;
uintptr_t packet_addr;
rc = cam_mem_get_cpu_buf((int32_t) cmd->packet_handle,
&packet_addr, &len);
if (rc) {
CAM_ERR(CAM_OPE, "[%s][%d] Can not get packet address",
ctx->dev_name, ctx->ctx_id);
rc = -EINVAL;
return rc;
}
rc = cam_context_prepare_dev_to_hw(ctx, cmd);
if (rc)
CAM_ERR(CAM_OPE, "Failed to prepare device");
return rc;
}
static int __cam_ope_stop_dev_in_ready(struct cam_context *ctx,
struct cam_start_stop_dev_cmd *cmd)
{
int rc;
rc = cam_context_stop_dev_to_hw(ctx);
if (rc)
CAM_ERR(CAM_OPE, "Failed to stop device");
ctx->state = CAM_CTX_ACQUIRED;
trace_cam_context_state("OPE", ctx);
return rc;
}
static int __cam_ope_release_dev_in_ready(struct cam_context *ctx,
struct cam_release_dev_cmd *cmd)
{
int rc;
rc = __cam_ope_stop_dev_in_ready(ctx, NULL);
if (rc)
CAM_ERR(CAM_OPE, "Failed to stop device");
rc = __cam_ope_release_dev_in_acquired(ctx, cmd);
if (rc)
CAM_ERR(CAM_OPE, "Failed to release device");
return rc;
}
static int __cam_ope_handle_buf_done_in_ready(void *ctx,
uint32_t evt_id, void *done)
{
return cam_context_buf_done_from_hw(ctx, done, evt_id);
}
static struct cam_ctx_ops
cam_ope_ctx_state_machine[CAM_CTX_STATE_MAX] = {
/* Uninit */
{
.ioctl_ops = {},
.crm_ops = {},
.irq_ops = NULL,
},
/* Available */
{
.ioctl_ops = {
.acquire_dev = __cam_ope_acquire_dev_in_available,
},
.crm_ops = {},
.irq_ops = NULL,
},
/* Acquired */
{
.ioctl_ops = {
.release_dev = __cam_ope_release_dev_in_acquired,
.start_dev = __cam_ope_start_dev_in_acquired,
.config_dev = __cam_ope_config_dev_in_ready,
.flush_dev = __cam_ope_flush_dev_in_ready,
.dump_dev = __cam_ope_dump_dev_in_ready,
},
.crm_ops = {},
.irq_ops = __cam_ope_handle_buf_done_in_ready,
.pagefault_ops = cam_ope_context_dump_active_request,
},
/* Ready */
{
.ioctl_ops = {
.stop_dev = __cam_ope_stop_dev_in_ready,
.release_dev = __cam_ope_release_dev_in_ready,
.config_dev = __cam_ope_config_dev_in_ready,
.flush_dev = __cam_ope_flush_dev_in_ready,
.dump_dev = __cam_ope_dump_dev_in_ready,
},
.crm_ops = {},
.irq_ops = __cam_ope_handle_buf_done_in_ready,
.pagefault_ops = cam_ope_context_dump_active_request,
},
/* Activated */
{
.ioctl_ops = {},
.crm_ops = {},
.irq_ops = NULL,
.pagefault_ops = cam_ope_context_dump_active_request,
},
};
int cam_ope_context_init(struct cam_ope_context *ctx,
struct cam_hw_mgr_intf *hw_intf, uint32_t ctx_id)
{
int rc;
if ((!ctx) || (!ctx->base) || (!hw_intf)) {
CAM_ERR(CAM_OPE, "Invalid params: %pK %pK", ctx, hw_intf);
rc = -EINVAL;
goto err;
}
rc = cam_context_init(ctx->base, ope_dev_name, CAM_OPE, ctx_id,
NULL, hw_intf, ctx->req_base, CAM_CTX_REQ_MAX);
if (rc) {
CAM_ERR(CAM_OPE, "Camera Context Base init failed");
goto err;
}
ctx->base->state_machine = cam_ope_ctx_state_machine;
ctx->base->ctx_priv = ctx;
ctx->ctxt_to_hw_map = NULL;
err:
return rc;
}
int cam_ope_context_deinit(struct cam_ope_context *ctx)
{
if ((!ctx) || (!ctx->base)) {
CAM_ERR(CAM_OPE, "Invalid params: %pK", ctx);
return -EINVAL;
}
cam_context_deinit(ctx->base);
memset(ctx, 0, sizeof(*ctx));
return 0;
}
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