OSD changes

This commit is contained in:
jojo61 2018-10-12 12:51:52 +02:00
parent 53ef055f5e
commit b1f79c423a
4 changed files with 501 additions and 20 deletions

463
drvapi_error_string.h Normal file
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@ -0,0 +1,463 @@
/*
* Copyright 1993-2013 NVIDIA Corporation. All rights reserved.
*
* Please refer to the NVIDIA end user license agreement (EULA) associated
* with this source code for terms and conditions that govern your use of
* this software. Any use, reproduction, disclosure, or distribution of
* this software and related documentation outside the terms of the EULA
* is strictly prohibited.
*
*/
#ifndef _DRVAPI_ERROR_STRING_H_
#define _DRVAPI_ERROR_STRING_H_
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#ifdef __cuda_cuda_h__ // check to see if CUDA_H is included above
// Error Code string definitions here
typedef struct
{
char const *error_string;
int error_id;
} s_CudaErrorStr;
/**
* Error codes
*/
static s_CudaErrorStr sCudaDrvErrorString[] =
{
/**
* The API call returned with no errors. In the case of query calls, this
* can also mean that the operation being queried is complete (see
* ::cuEventQuery() and ::cuStreamQuery()).
*/
{ "CUDA_SUCCESS", 0 },
/**
* This indicates that one or more of the parameters passed to the API call
* is not within an acceptable range of values.
*/
{ "CUDA_ERROR_INVALID_VALUE", 1 },
/**
* The API call failed because it was unable to allocate enough memory to
* perform the requested operation.
*/
{ "CUDA_ERROR_OUT_OF_MEMORY", 2 },
/**
* This indicates that the CUDA driver has not been initialized with
* ::cuInit() or that initialization has failed.
*/
{ "CUDA_ERROR_NOT_INITIALIZED", 3 },
/**
* This indicates that the CUDA driver is in the process of shutting down.
*/
{ "CUDA_ERROR_DEINITIALIZED", 4 },
/**
* This indicates profiling APIs are called while application is running
* in visual profiler mode.
*/
{ "CUDA_ERROR_PROFILER_DISABLED", 5 },
/**
* This indicates profiling has not been initialized for this context.
* Call cuProfilerInitialize() to resolve this.
*/
{ "CUDA_ERROR_PROFILER_NOT_INITIALIZED", 6 },
/**
* This indicates profiler has already been started and probably
* cuProfilerStart() is incorrectly called.
*/
{ "CUDA_ERROR_PROFILER_ALREADY_STARTED", 7 },
/**
* This indicates profiler has already been stopped and probably
* cuProfilerStop() is incorrectly called.
*/
{ "CUDA_ERROR_PROFILER_ALREADY_STOPPED", 8 },
/**
* This indicates that no CUDA-capable devices were detected by the installed
* CUDA driver.
*/
{ "CUDA_ERROR_NO_DEVICE (no CUDA-capable devices were detected)", 100 },
/**
* This indicates that the device ordinal supplied by the user does not
* correspond to a valid CUDA device.
*/
{ "CUDA_ERROR_INVALID_DEVICE (device specified is not a valid CUDA device)", 101 },
/**
* This indicates that the device kernel image is invalid. This can also
* indicate an invalid CUDA module.
*/
{ "CUDA_ERROR_INVALID_IMAGE", 200 },
/**
* This most frequently indicates that there is no context bound to the
* current thread. This can also be returned if the context passed to an
* API call is not a valid handle (such as a context that has had
* ::cuCtxDestroy() invoked on it). This can also be returned if a user
* mixes different API versions (i.e. 3010 context with 3020 API calls).
* See ::cuCtxGetApiVersion() for more details.
*/
{ "CUDA_ERROR_INVALID_CONTEXT", 201 },
/**
* This indicated that the context being supplied as a parameter to the
* API call was already the active context.
* \deprecated
* This error return is deprecated as of CUDA 3.2. It is no longer an
* error to attempt to push the active context via ::cuCtxPushCurrent().
*/
{ "CUDA_ERROR_CONTEXT_ALREADY_CURRENT", 202 },
/**
* This indicates that a map or register operation has failed.
*/
{ "CUDA_ERROR_MAP_FAILED", 205 },
/**
* This indicates that an unmap or unregister operation has failed.
*/
{ "CUDA_ERROR_UNMAP_FAILED", 206 },
/**
* This indicates that the specified array is currently mapped and thus
* cannot be destroyed.
*/
{ "CUDA_ERROR_ARRAY_IS_MAPPED", 207 },
/**
* This indicates that the resource is already mapped.
*/
{ "CUDA_ERROR_ALREADY_MAPPED", 208 },
/**
* This indicates that there is no kernel image available that is suitable
* for the device. This can occur when a user specifies code generation
* options for a particular CUDA source file that do not include the
* corresponding device configuration.
*/
{ "CUDA_ERROR_NO_BINARY_FOR_GPU", 209 },
/**
* This indicates that a resource has already been acquired.
*/
{ "CUDA_ERROR_ALREADY_ACQUIRED", 210 },
/**
* This indicates that a resource is not mapped.
*/
{ "CUDA_ERROR_NOT_MAPPED", 211 },
/**
* This indicates that a mapped resource is not available for access as an
* array.
*/
{ "CUDA_ERROR_NOT_MAPPED_AS_ARRAY", 212 },
/**
* This indicates that a mapped resource is not available for access as a
* pointer.
*/
{ "CUDA_ERROR_NOT_MAPPED_AS_POINTER", 213 },
/**
* This indicates that an uncorrectable ECC error was detected during
* execution.
*/
{ "CUDA_ERROR_ECC_UNCORRECTABLE", 214 },
/**
* This indicates that the ::CUlimit passed to the API call is not
* supported by the active device.
*/
{ "CUDA_ERROR_UNSUPPORTED_LIMIT", 215 },
/**
* This indicates that the ::CUcontext passed to the API call can
* only be bound to a single CPU thread at a time but is already
* bound to a CPU thread.
*/
{ "CUDA_ERROR_CONTEXT_ALREADY_IN_USE", 216 },
/**
* This indicates that peer access is not supported across the given
* devices.
*/
{ "CUDA_ERROR_PEER_ACCESS_UNSUPPORTED", 217 },
/**
* This indicates that a PTX JIT compilation failed.
*/
{ "CUDA_ERROR_INVALID_PTX", 218 },
/**
* This indicates an error with OpenGL or DirectX context.
*/
{ "CUDA_ERROR_INVALID_GRAPHICS_CONTEXT", 219 },
/**
* This indicates that an uncorrectable NVLink error was detected during the
* execution.
*/
{ "CUDA_ERROR_NVLINK_UNCORRECTABLE", 220 },
/**
* This indicates that the PTX JIT compiler library was not found.
*/
{ "CUDA_ERROR_JIT_COMPILER_NOT_FOUND", 221 },
/**
* This indicates that the device kernel source is invalid.
*/
{ "CUDA_ERROR_INVALID_SOURCE", 300 },
/**
* This indicates that the file specified was not found.
*/
{ "CUDA_ERROR_FILE_NOT_FOUND", 301 },
/**
* This indicates that a link to a shared object failed to resolve.
*/
{ "CUDA_ERROR_SHARED_OBJECT_SYMBOL_NOT_FOUND", 302 },
/**
* This indicates that initialization of a shared object failed.
*/
{ "CUDA_ERROR_SHARED_OBJECT_INIT_FAILED", 303 },
/**
* This indicates that an OS call failed.
*/
{ "CUDA_ERROR_OPERATING_SYSTEM", 304 },
/**
* This indicates that a resource handle passed to the API call was not
* valid. Resource handles are opaque types like ::CUstream and ::CUevent.
*/
{ "CUDA_ERROR_INVALID_HANDLE", 400 },
/**
* This indicates that a named symbol was not found. Examples of symbols
* are global/constant variable names, texture names }, and surface names.
*/
{ "CUDA_ERROR_NOT_FOUND", 500 },
/**
* This indicates that asynchronous operations issued previously have not
* completed yet. This result is not actually an error, but must be indicated
* differently than ::CUDA_SUCCESS (which indicates completion). Calls that
* may return this value include ::cuEventQuery() and ::cuStreamQuery().
*/
{ "CUDA_ERROR_NOT_READY", 600 },
/**
* While executing a kernel, the device encountered a
* load or store instruction on an invalid memory address.
* This leaves the process in an inconsistent state and any further CUDA work
* will return the same error. To continue using CUDA, the process must be terminated
* and relaunched.
*/
{ "CUDA_ERROR_ILLEGAL_ADDRESS", 700 },
/**
* This indicates that a launch did not occur because it did not have
* appropriate resources. This error usually indicates that the user has
* attempted to pass too many arguments to the device kernel, or the
* kernel launch specifies too many threads for the kernel's register
* count. Passing arguments of the wrong size (i.e. a 64-bit pointer
* when a 32-bit int is expected) is equivalent to passing too many
* arguments and can also result in this error.
*/
{ "CUDA_ERROR_LAUNCH_OUT_OF_RESOURCES", 701 },
/**
* This indicates that the device kernel took too long to execute. This can
* only occur if timeouts are enabled - see the device attribute
* ::CU_DEVICE_ATTRIBUTE_KERNEL_EXEC_TIMEOUT for more information. The
* context cannot be used (and must be destroyed similar to
* ::CUDA_ERROR_LAUNCH_FAILED). All existing device memory allocations from
* this context are invalid and must be reconstructed if the program is to
* continue using CUDA.
*/
{ "CUDA_ERROR_LAUNCH_TIMEOUT", 702 },
/**
* This error indicates a kernel launch that uses an incompatible texturing
* mode.
*/
{ "CUDA_ERROR_LAUNCH_INCOMPATIBLE_TEXTURING", 703 },
/**
* This error indicates that a call to ::cuCtxEnablePeerAccess() is
* trying to re-enable peer access to a context which has already
* had peer access to it enabled.
*/
{ "CUDA_ERROR_PEER_ACCESS_ALREADY_ENABLED", 704 },
/**
* This error indicates that ::cuCtxDisablePeerAccess() is
* trying to disable peer access which has not been enabled yet
* via ::cuCtxEnablePeerAccess().
*/
{ "CUDA_ERROR_PEER_ACCESS_NOT_ENABLED", 705 },
/**
* This error indicates that the primary context for the specified device
* has already been initialized.
*/
{ "CUDA_ERROR_PRIMARY_CONTEXT_ACTIVE", 708 },
/**
* This error indicates that the context current to the calling thread
* has been destroyed using ::cuCtxDestroy }, or is a primary context which
* has not yet been initialized.
*/
{ "CUDA_ERROR_CONTEXT_IS_DESTROYED", 709 },
/**
* A device-side assert triggered during kernel execution. The context
* cannot be used anymore, and must be destroyed. All existing device
* memory allocations from this context are invalid and must be
* reconstructed if the program is to continue using CUDA.
*/
{ "CUDA_ERROR_ASSERT", 710 },
/**
* This error indicates that the hardware resources required to enable
* peer access have been exhausted for one or more of the devices
* passed to ::cuCtxEnablePeerAccess().
*/
{ "CUDA_ERROR_TOO_MANY_PEERS", 711 },
/**
* This error indicates that the memory range passed to ::cuMemHostRegister()
* has already been registered.
*/
{ "CUDA_ERROR_HOST_MEMORY_ALREADY_REGISTERED", 712 },
/**
* This error indicates that the pointer passed to ::cuMemHostUnregister()
* does not correspond to any currently registered memory region.
*/
{ "CUDA_ERROR_HOST_MEMORY_NOT_REGISTERED", 713 },
/**
* While executing a kernel, the device encountered a stack error.
* This can be due to stack corruption or exceeding the stack size limit.
* This leaves the process in an inconsistent state and any further CUDA work
* will return the same error. To continue using CUDA, the process must be terminated
* and relaunched.
*/
{ "CUDA_ERROR_HARDWARE_STACK_ERROR", 714 },
/**
* While executing a kernel, the device encountered an illegal instruction.
* This leaves the process in an inconsistent state and any further CUDA work
* will return the same error. To continue using CUDA, the process must be terminated
* and relaunched.
*/
{ "CUDA_ERROR_ILLEGAL_INSTRUCTION", 715 },
/**
* While executing a kernel, the device encountered a load or store instruction
* on a memory address which is not aligned.
* This leaves the process in an inconsistent state and any further CUDA work
* will return the same error. To continue using CUDA, the process must be terminated
* and relaunched.
*/
{ "CUDA_ERROR_MISALIGNED_ADDRESS", 716 },
/**
* While executing a kernel, the device encountered an instruction
* which can only operate on memory locations in certain address spaces
* (global, shared, or local), but was supplied a memory address not
* belonging to an allowed address space.
* This leaves the process in an inconsistent state and any further CUDA work
* will return the same error. To continue using CUDA, the process must be terminated
* and relaunched.
*/
{ "CUDA_ERROR_INVALID_ADDRESS_SPACE", 717 },
/**
* While executing a kernel, the device program counter wrapped its address space.
* This leaves the process in an inconsistent state and any further CUDA work
* will return the same error. To continue using CUDA, the process must be terminated
* and relaunched.
*/
{ "CUDA_ERROR_INVALID_PC", 718 },
/**
* An exception occurred on the device while executing a kernel. Common
* causes include dereferencing an invalid device pointer and accessing
* out of bounds shared memory. The context cannot be used }, so it must
* be destroyed (and a new one should be created). All existing device
* memory allocations from this context are invalid and must be
* reconstructed if the program is to continue using CUDA.
*/
{ "CUDA_ERROR_LAUNCH_FAILED", 719 },
/**
* This error indicates that the number of blocks launched per grid for a kernel that was
* launched via either ::cuLaunchCooperativeKernel or ::cuLaunchCooperativeKernelMultiDevice
* exceeds the maximum number of blocks as allowed by ::cuOccupancyMaxActiveBlocksPerMultiprocessor
* or ::cuOccupancyMaxActiveBlocksPerMultiprocessorWithFlags times the number of multiprocessors
* as specified by the device attribute ::CU_DEVICE_ATTRIBUTE_MULTIPROCESSOR_COUNT.
*/
{ "CUDA_ERROR_COOPERATIVE_LAUNCH_TOO_LARGE", 720 },
/**
* This error indicates that the attempted operation is not permitted.
*/
{ "CUDA_ERROR_NOT_PERMITTED", 800 },
/**
* This error indicates that the attempted operation is not supported
* on the current system or device.
*/
{ "CUDA_ERROR_NOT_SUPPORTED", 801 },
/**
* This indicates that an unknown internal error has occurred.
*/
{ "CUDA_ERROR_UNKNOWN", 999 },
{ NULL, -1 }
};
// This is just a linear search through the array, since the error_id's are not
// always ocurring consecutively
inline const char *getCudaDrvErrorString(CUresult error_id)
{
int index = 0;
while (sCudaDrvErrorString[index].error_id != error_id &&
sCudaDrvErrorString[index].error_id != -1)
{
index++;
}
if (sCudaDrvErrorString[index].error_id == error_id)
return (const char *)sCudaDrvErrorString[index].error_string;
else
return (const char *)"CUDA_ERROR not found!";
}
#endif // __cuda_cuda_h__
#endif

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@ -505,14 +505,19 @@ void cOglFb::Blit(GLint destX1, GLint destY1, GLint destX2, GLint destY2) {
****************************************************************************************/
cOglOutputFb::cOglOutputFb(GLint width, GLint height) : cOglFb(width, height, width, height) {
// surface = 0;
initiated = false;
fb = 0;
texture = 0;
}
cOglOutputFb::~cOglOutputFb(void) {
// glVDPAUUnregisterSurfaceNV(surface);
glDeleteTextures(1, &texture);
glDeleteFramebuffers(1, &fb);
}
bool cOglOutputFb::Init(void) {
initiated = true;
glGenTextures(1, &texture);
glBindTexture(GL_TEXTURE_2D, texture);
glTexImage2D(GL_TEXTURE_2D, 0, GL_RGBA, width, height, 0, GL_RGBA, GL_UNSIGNED_BYTE, NULL);
@ -534,6 +539,8 @@ bool cOglOutputFb::Init(void) {
void cOglOutputFb::BindWrite(void) {
// glVDPAUMapSurfacesNV(1, &surface);
if (!initiated)
Init();
glBindFramebuffer(GL_DRAW_FRAMEBUFFER, fb);
}
@ -771,8 +778,8 @@ bool cOglCmdCopyBufferToOutputFb::Execute(void) {
pthread_mutex_lock(&OSDMutex);
fb->BindRead();
oFb->BindWrite();
glClear(GL_COLOR_BUFFER_BIT);
// glClear(GL_COLOR_BUFFER_BIT);
fb->Blit(x, y + fb->Height(), x + fb->Width(), y);
oFb->Unbind();
pthread_mutex_unlock(&OSDMutex);
@ -790,7 +797,7 @@ bool cOglCmdFill::Execute(void) {
glm::vec4 col;
ConvertColor(color, col);
fb->Bind();
glClearColor(col.r, col.g, col.b, col.a);
glClearColor(col.r, col.g, col.b, col.a);
glClear(GL_COLOR_BUFFER_BIT);
fb->Unbind();
return true;
@ -1653,7 +1660,7 @@ void cOglThread::Cleanup(void) {
OsdClose();
DeleteVertexBuffers();
// delete cOglOsd::oFb;
delete cOglOsd::oFb;
cOglOsd::oFb = NULL;
DeleteShaders();
@ -1898,6 +1905,8 @@ cOglOsd::cOglOsd(int Left, int Top, uint Level, std::shared_ptr<cOglThread> oglT
int osdHeight = 0;
VideoGetOsdSize(&osdWidth, &osdHeight);
// osdWidth = 1920;
// osdHeight = 1080;
dsyslog("[softhddev]cOglOsd osdLeft %d osdTop %d screenWidth %d screenHeight %d", Left, Top, osdWidth, osdHeight);

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@ -193,9 +193,13 @@ public:
* Output Framebuffer Object - holds Vdpau Output Surface which is our "output framebuffer"
****************************************************************************************/
class cOglOutputFb : public cOglFb {
protected:
bool initiated;
private:
GLvdpauSurfaceNV surface;
public:
GLuint fb;
GLuint texture;
cOglOutputFb(GLint width, GLint height);
virtual ~cOglOutputFb(void);
virtual bool Init(void);

35
video.c
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@ -152,6 +152,7 @@ typedef enum
#include <dynlink_nvcuvid.h>
#include <cudaGL.h>
#include <libavutil/hwcontext_cuda.h>
#include "drvapi_error_string.h"
// CUDA includes
#define __DEVICE_TYPES_H__
#endif
@ -1665,14 +1666,22 @@ unsigned int num_values;
int window_width,window_height;
#include "shaders.h"
////////////////////////////////////////////////////////////////////////////////
// These are CUDA Helper functions
void checkCudaErrors(CUresult err)
// This will output the proper CUDA error strings in the event that a CUDA host call returns an error
#define checkCudaErrors(err) __checkCudaErrors (err, __FILE__, __LINE__)
// These are the inline versions for all of the SDK helper functions
inline void __checkCudaErrors(CUresult err, const char *file, const int line)
{
if (CUDA_SUCCESS != err)
{
Fatal(_("checkCudaErrors() Driver API error = %04d"), err );
CuvidMessage( 2,"checkCudaErrors() Driver API error = %04d \"%s\" from file <%s>, line %i.\n", err, getCudaDrvErrorString(err), file, line);
exit(EXIT_FAILURE);
}
}
//----------------------------------------------------------------------------
///
@ -1731,7 +1740,7 @@ static void CuvidCreateSurfaces(CuvidDecoder * decoder, int width, int height,en
#ifdef DEBUG
if (!decoder->SurfacesNeeded) {
Error(_("video/cuvid: surface needed not set\n"));
decoder->SurfacesNeeded = VIDEO_SURFACES_MAX;
decoder->SurfacesNeeded = VIDEO_SURFACES_MAX + 1;
}
#endif
Debug(3, "video/cuvid: %s: %dx%d * %d \n", __FUNCTION__, width, height, decoder->SurfacesNeeded);
@ -1764,17 +1773,11 @@ static void CuvidDestroySurfaces(CuvidDecoder * decoder)
glXMakeCurrent(XlibDisplay, VideoWindow, GlxContext);
GlxCheck();
if (decoder->cuda_ctx) {
checkCudaErrors(cuCtxPushCurrent(decoder->cuda_ctx));
for (i=0;i<decoder->SurfacesNeeded;i++) {
for (j=0;j<2;j++) {
if (decoder->cu_res[i][j]) {
checkCudaErrors(cuGraphicsUnregisterResource(decoder->cu_res[i][j]));
decoder->cu_res[i][j] = 0;
}
}
for (i=0;i<decoder->SurfacesNeeded;i++) {
for (j=0;j<2;j++) {
checkCudaErrors(cuGraphicsUnregisterResource(decoder->cu_res[i][j]));
}
checkCudaErrors(cuCtxPopCurrent(NULL));
}
@ -3113,7 +3116,6 @@ static void CuvidDisplayFrame(void)
glLoadIdentity();
glOrtho(0.0, VideoWindowWidth, VideoWindowHeight, 0.0, -1.0, 1.0);
GlxCheck();
// printf("osd %d %dx%d\n",OSDtexture,VideoWindowWidth, VideoWindowHeight);
GlxRenderTexture(OSDtexture, 0,0, VideoWindowWidth, VideoWindowHeight);
pthread_mutex_unlock(&OSDMutex);
#endif
@ -3181,6 +3183,7 @@ static int64_t CuvidGetClock(const CuvidDecoder * decoder)
static void CuvidSetClosing(CuvidDecoder * decoder)
{
decoder->Closing = 1;
OsdShown = 0;
}
///
@ -5077,8 +5080,10 @@ void VideoSetVideoMode( __attribute__ ((unused))
return; // same size nothing todo
}
#ifdef USE_OPENGLOSD
if (VideoEventCallback)
if (VideoEventCallback) {
VideoEventCallback();
Debug(3,"call back set video mode %d %d\n",width,height);
}
#endif
VideoOsdExit();