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mpp/osal/mpp_runtime.cpp
Ding Wei 7d05e33de8 [mpp]: add /dev/mpp_service support 
Add a new ioctl mode for kernel-4.19 or later.
Tips:
    1. There will be only one device /dev/mpp_service in kernel.
       User should use client type to distinguish different device.
    2. Each codec use the same function as before.
    3. Ioctl magic changes from VPU_IOC to MPP_IOC.
    4. Update structure for ioctl argument.
	Original structure:
	    data_ptr | size
	In this mode has many sortcommings:
	a) Need many ioctl cmd for different requirements.
	b) Data_ptr not to differ library for 32 or 64 system.
	c) Contain only one info ioctl once.

    New data structure:
        cmd_type | flags | size | offset | data_ptr
    a) Cmd_type works like previous ioctl cmd.
    b) Flags is extend to mark current data for any purpose.
    c) Size is the same as before.
    d) Data_ptr use 32 bits build in 32 system while 64 bits in 64 system.

kernel-4.19 related commit:
ib94ac0df876dfcc786b25ed3de6a68d861d2ef1e
cda9d27c62017309519bcbf8fe91057dfdc21076

Change-Id: I13d54a2e4823b7378265f100540916a22f62b9d4
Signed-off-by: Ding Wei <leo.ding@rock-chips.com>
2019-12-10 20:12:50 +08:00

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5.5 KiB
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/*
* Copyright 2015 Rockchip Electronics Co. LTD
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#define MODULE_TAG "mpp_rt"
#include <fcntl.h>
#include <unistd.h>
#include "mpp_log.h"
#include "mpp_common.h"
#include "mpp_runtime.h"
#define MAX_DTS_PATH_LEN 256
static const char *mpp_dts_base = "/proc/device-tree/";
static const char *mpp_vpu_names[] = {
"vpu_service",
"vpu-service",
"vpu",
//"hevc_service",
//"hevc-service",
//"rkvdec",
//"rkvenc",
//"vpu_combo",
};
static const char *mpp_vpu_address[] = {
"", /* old kernel */
"@10108000", /* rk3036 */
"@20020000", /* rk322x */
"@30000000", /* rv1108 */
"@ff9a0000", /* rk3288/3366 */
"@ff350000", /* rk322xh/3328 */
"@ff650000", /* rk3399 */
};
class MppRuntimeService
{
private:
// avoid any unwanted function
MppRuntimeService();
~MppRuntimeService() {};
MppRuntimeService(const MppRuntimeService &);
MppRuntimeService &operator=(const MppRuntimeService &);
RK_U32 allocator_valid[MPP_BUFFER_TYPE_BUTT];
public:
static MppRuntimeService *get_instance() {
static MppRuntimeService instance;
return &instance;
}
RK_U32 get_allocator_valid(MppBufferType type);
};
RK_U32 MppRuntimeService::get_allocator_valid(MppBufferType type)
{
MppBufferType buffer_type = (MppBufferType)(type & MPP_BUFFER_TYPE_MASK);
return (buffer_type < MPP_BUFFER_TYPE_BUTT) ? allocator_valid[buffer_type] : (0);
};
MppRuntimeService::MppRuntimeService()
{
allocator_valid[MPP_BUFFER_TYPE_NORMAL] = 1;
if (access("/dev/ion", F_OK | R_OK | W_OK)) {
allocator_valid[MPP_BUFFER_TYPE_ION] = 0;
mpp_log("NOT found ion allocator\n");
} else {
allocator_valid[MPP_BUFFER_TYPE_ION] = 1;
mpp_log("found ion allocator\n");
}
if (access("/dev/dri/card0", F_OK | R_OK | W_OK)) {
allocator_valid[MPP_BUFFER_TYPE_DRM] = 0;
mpp_log("NOT found drm allocator\n");
} else {
allocator_valid[MPP_BUFFER_TYPE_DRM] = 1;
mpp_log("found drm allocator\n");
}
if ((!access("/dev/mpp_service", F_OK | R_OK | W_OK)) &&
allocator_valid[MPP_BUFFER_TYPE_ION] &&
allocator_valid[MPP_BUFFER_TYPE_DRM]) {
allocator_valid[MPP_BUFFER_TYPE_ION] = 0;
mpp_log("use drm allocator for mpp_service\n");
return;
}
// If both ion and drm is enabled detect allocator in dts to choose one
// TODO: When unify dma fd kernel is completed this part will be removed.
if (allocator_valid[MPP_BUFFER_TYPE_ION] &&
allocator_valid[MPP_BUFFER_TYPE_DRM]) {
/* Detect hardware buffer type is ion or drm */
RK_U32 i, j;
char path[MAX_DTS_PATH_LEN];
RK_U32 path_len = MAX_DTS_PATH_LEN;
RK_U32 dts_path_len = snprintf(path, path_len, "%s", mpp_dts_base);
char *p = path + dts_path_len;
RK_U32 allocator_found = 0;
path_len -= dts_path_len;
for (i = 0; i < MPP_ARRAY_ELEMS(mpp_vpu_names); i++) {
for (j = 0; j < MPP_ARRAY_ELEMS(mpp_vpu_address); j++) {
RK_U32 dev_path_len = snprintf(p, path_len, "%s%s",
mpp_vpu_names[i], mpp_vpu_address[j]);
int f_ok = access(path, F_OK);
if (f_ok == 0) {
snprintf(p + dev_path_len, path_len - dev_path_len, "/%s", "allocator");
f_ok = access(path, F_OK);
if (f_ok == 0) {
RK_S32 val = 0;
FILE *fp = fopen(path, "rb");
if (fp) {
size_t len = fread(&val, 1, 4, fp);
// zero for ion non-zero for drm ->
// zero - disable drm
// non-zero - disable ion
if (len != 4) {
mpp_err("failed to read dts allocator value default 0\n");
val = 0;
}
if (val == 0) {
allocator_valid[MPP_BUFFER_TYPE_DRM] = 0;
mpp_log("found ion allocator in dts\n");
} else {
allocator_valid[MPP_BUFFER_TYPE_ION] = 0;
mpp_log("found drm allocator in dts\n");
}
allocator_found = 1;
}
}
}
if (allocator_found)
break;
}
if (allocator_found)
break;
}
if (!allocator_found)
mpp_log("Can NOT found allocator in dts, enable both ion and drm\n");
}
}
RK_U32 mpp_rt_allcator_is_valid(MppBufferType type)
{
return MppRuntimeService::get_instance()->get_allocator_valid(type);
}
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