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OpenCL-CTS/test_conformance/pipes/test_pipe_query_functions.c
Kevin Petit ef832c330c Stop using ../../test_common to include common headers 
Fixes #395.

Signed-off-by: Kevin Petit <kevin.petit@arm.com>
2019-08-01 18:41:12 +01:00

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//
// Copyright (c) 2017 The Khronos Group Inc.
//
// 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.
//
#include "harness/compat.h"
#include <stdio.h>
#include <string.h>
#include <sys/types.h>
#include <sys/stat.h>
#include "procs.h"
#include "harness/errorHelpers.h"
#define TEST_PRIME_INT ((1<<16)+1)
const char* pipe_query_functions_kernel_code = {
"__kernel void test_pipe_write(__global int *src, __write_only pipe int out_pipe)\n"
"{\n"
" int gid = get_global_id(0);\n"
" reserve_id_t res_id;\n"
" res_id = reserve_write_pipe(out_pipe, 1);\n"
" if(is_valid_reserve_id(res_id))\n"
" {\n"
" write_pipe(out_pipe, res_id, 0, &src[gid]);\n"
" commit_write_pipe(out_pipe, res_id);\n"
" }\n"
"}\n"
"\n"
"__kernel void test_pipe_query_functions(__write_only pipe int out_pipe, __global int *num_packets, __global int *max_packets)\n"
"{\n"
" *max_packets = get_pipe_max_packets(out_pipe);\n"
" *num_packets = get_pipe_num_packets(out_pipe);\n"
"}\n"
"\n"
"__kernel void test_pipe_read(__read_only pipe int in_pipe, __global int *dst)\n"
"{\n"
" int gid = get_global_id(0);\n"
" reserve_id_t res_id;\n"
" res_id = reserve_read_pipe(in_pipe, 1);\n"
" if(is_valid_reserve_id(res_id))\n"
" {\n"
" read_pipe(in_pipe, res_id, 0, &dst[gid]);\n"
" commit_read_pipe(in_pipe, res_id);\n"
" }\n"
"}\n" };
static int verify_result(void *ptr1, void *ptr2, int n)
{
int i, sum_output = 0;
cl_int *outptr1 = (int *)ptr1;
cl_int *outptr2 = (int *)ptr2;
int cmp_val = ((n*3)/2) * TEST_PRIME_INT;
for(i = 0; i < n/2; i++)
{
sum_output += outptr1[i];
}
for(i = 0; i < n; i++)
{
sum_output += outptr2[i];
}
if(sum_output != cmp_val){
return -1;
}
return 0;
}
int test_pipe_query_functions(cl_device_id deviceID, cl_context context, cl_command_queue queue, int num_elements)
{
cl_mem pipe;
cl_mem buffers[4];
void *outptr1;
void *outptr2;
cl_int *inptr;
cl_program program;
cl_kernel kernel[3];
size_t global_work_size[3];
size_t half_global_work_size[3];
size_t global_work_size_pipe_query[3];
cl_int pipe_max_packets, pipe_num_packets;
cl_int err;
cl_int size;
cl_int i;
cl_event producer_sync_event = NULL;
cl_event consumer_sync_event = NULL;
cl_event pipe_query_sync_event = NULL;
cl_event pipe_read_sync_event = NULL;
MTdata d = init_genrand( gRandomSeed );
const char* kernelName[] = {"test_pipe_write", "test_pipe_read", "test_pipe_query_functions"};
size_t min_alignment = get_min_alignment(context);
size = sizeof(int) * num_elements;
global_work_size[0] = (cl_uint)num_elements;
half_global_work_size[0] = (cl_uint)(num_elements / 2);
global_work_size_pipe_query[0] = 1;
inptr = (int *)align_malloc(size, min_alignment);
for(i = 0; i < num_elements; i++){
inptr[i] = TEST_PRIME_INT;
}
buffers[0] = clCreateBuffer(context, CL_MEM_COPY_HOST_PTR, size, inptr, &err);
if(err){
clReleaseMemObject(buffers[0]);
print_error(err, " clCreateBuffer failed\n");
return -1;
}
outptr1 = align_malloc(size/2, min_alignment);
outptr2 = align_malloc(size, min_alignment);
buffers[1] = clCreateBuffer(context, CL_MEM_HOST_READ_ONLY, size, NULL, &err);
if ( err ){
clReleaseMemObject(buffers[0]);
clReleaseMemObject(buffers[1]);
align_free( outptr1 );
print_error(err, " clCreateBuffer failed\n" );
return -1;
}
buffers[2] = clCreateBuffer(context, CL_MEM_READ_WRITE, sizeof(int), NULL, &err);
if ( err ){
clReleaseMemObject(buffers[0]);
clReleaseMemObject(buffers[1]);
clReleaseMemObject(buffers[2]);
align_free( outptr1 );
print_error(err, " clCreateBuffer failed\n" );
return -1;
}
buffers[3] = clCreateBuffer(context, CL_MEM_READ_WRITE, sizeof(int), NULL, &err);
if ( err ){
clReleaseMemObject(buffers[0]);
clReleaseMemObject(buffers[1]);
clReleaseMemObject(buffers[2]);
clReleaseMemObject(buffers[3]);
align_free( outptr1 );
print_error(err, " clCreateBuffer failed\n" );
return -1;
}
pipe = clCreatePipe(context, CL_MEM_HOST_NO_ACCESS, sizeof(int), num_elements, NULL, &err);
if(err){
clReleaseMemObject(buffers[0]);
clReleaseMemObject(buffers[1]);
clReleaseMemObject(buffers[2]);
clReleaseMemObject(buffers[3]);
align_free( outptr1 );
clReleaseMemObject(pipe);
print_error(err, " clCreatePipe failed\n");
return -1;
}
// Create producer kernel
err = create_single_kernel_helper_with_build_options(context, &program, &kernel[0], 1, (const char**)&pipe_query_functions_kernel_code, kernelName[0], "-cl-std=CL2.0");
if(err){
clReleaseMemObject(buffers[0]);
clReleaseMemObject(buffers[1]);
clReleaseMemObject(buffers[2]);
clReleaseMemObject(buffers[3]);
clReleaseMemObject(pipe);
align_free(outptr1);
print_error(err, "Error creating program\n");
return -1;
}
//Create consumer kernel
kernel[1] = clCreateKernel(program, kernelName[1], &err);
if( kernel[1] == NULL || err != CL_SUCCESS)
{
clReleaseMemObject(buffers[0]);
clReleaseMemObject(buffers[1]);
clReleaseMemObject(buffers[2]);
clReleaseMemObject(buffers[3]);
clReleaseMemObject(pipe);
align_free(outptr1);
print_error(err, "Error creating kernel\n");
return -1;
}
//Create pipe query functions kernel
kernel[2] = clCreateKernel(program, kernelName[2], &err);
if( kernel[1] == NULL || err != CL_SUCCESS)
{
clReleaseMemObject(buffers[0]);
clReleaseMemObject(buffers[1]);
clReleaseMemObject(buffers[2]);
clReleaseMemObject(buffers[3]);
clReleaseMemObject(pipe);
align_free(outptr1);
print_error(err, "Error creating kernel\n");
return -1;
}
err = clSetKernelArg(kernel[0], 0, sizeof(cl_mem), (void*)&buffers[0]);
err |= clSetKernelArg(kernel[0], 1, sizeof(cl_mem), (void*)&pipe);
err |= clSetKernelArg(kernel[1], 0, sizeof(cl_mem), (void*)&pipe);
err |= clSetKernelArg(kernel[1], 1, sizeof(cl_mem), (void*)&buffers[1]);
err |= clSetKernelArg(kernel[2], 0, sizeof(cl_mem), (void*)&pipe);
err |= clSetKernelArg(kernel[2], 1, sizeof(cl_mem), (void*)&buffers[2]);
err |= clSetKernelArg(kernel[2], 2, sizeof(cl_mem), (void*)&buffers[3]);
if ( err != CL_SUCCESS ){
clReleaseMemObject(buffers[0]);
clReleaseMemObject(buffers[1]);
clReleaseMemObject(buffers[2]);
clReleaseMemObject(buffers[3]);
clReleaseMemObject(pipe);
clReleaseKernel(kernel[0]);
clReleaseKernel(kernel[1]);
clReleaseKernel(kernel[2]);
clReleaseProgram(program);
align_free(outptr1);
print_error(err, " clSetKernelArg failed\n");
return -1;
}
// Launch Producer kernel
err = clEnqueueNDRangeKernel( queue, kernel[0], 1, NULL, global_work_size, NULL, 0, NULL, &producer_sync_event );
if ( err != CL_SUCCESS ){
print_error( err, " clEnqueueNDRangeKernel failed\n" );
clReleaseMemObject(buffers[0]);
clReleaseMemObject(buffers[1]);
clReleaseMemObject(buffers[2]);
clReleaseMemObject(buffers[3]);
clReleaseMemObject(pipe);
clReleaseKernel(kernel[0]);
clReleaseKernel(kernel[1]);
clReleaseKernel(kernel[2]);
clReleaseEvent(producer_sync_event);
clReleaseEvent(consumer_sync_event);
clReleaseEvent(pipe_query_sync_event);
clReleaseEvent(pipe_read_sync_event);
clReleaseProgram(program);
align_free(outptr1);
return -1;
}
// Launch Pipe query kernel
err = clEnqueueNDRangeKernel( queue, kernel[2], 1, NULL, global_work_size_pipe_query, NULL, 1, &producer_sync_event, &pipe_query_sync_event );
if ( err != CL_SUCCESS ){
print_error( err, " clEnqueueNDRangeKernel failed\n" );
clReleaseMemObject(buffers[0]);
clReleaseMemObject(buffers[1]);
clReleaseMemObject(buffers[2]);
clReleaseMemObject(buffers[3]);
clReleaseMemObject(pipe);
clReleaseKernel(kernel[0]);
clReleaseKernel(kernel[1]);
clReleaseKernel(kernel[2]);
clReleaseEvent(producer_sync_event);
clReleaseEvent(consumer_sync_event);
clReleaseEvent(pipe_query_sync_event);
clReleaseEvent(pipe_read_sync_event);
clReleaseProgram(program);
align_free(outptr1);
return -1;
}
err = clEnqueueReadBuffer(queue, buffers[2], true, 0, sizeof(cl_int), &pipe_num_packets, 1, &pipe_query_sync_event, NULL);
if ( err != CL_SUCCESS ){
print_error( err, " clEnqueueReadBuffer failed\n" );
clReleaseMemObject(buffers[0]);
clReleaseMemObject(buffers[1]);
clReleaseMemObject(buffers[2]);
clReleaseMemObject(buffers[3]);
clReleaseMemObject(pipe);
clReleaseKernel(kernel[0]);
clReleaseKernel(kernel[1]);
clReleaseKernel(kernel[2]);
clReleaseEvent(producer_sync_event);
clReleaseEvent(consumer_sync_event);
clReleaseEvent(pipe_query_sync_event);
clReleaseEvent(pipe_read_sync_event);
clReleaseProgram(program);
align_free(outptr1);
return -1;
}
err = clEnqueueReadBuffer(queue, buffers[3], true, 0, sizeof(cl_int), &pipe_max_packets, 1, &pipe_query_sync_event, NULL);
if ( err != CL_SUCCESS ){
print_error( err, " clEnqueueReadBuffer failed\n" );
clReleaseMemObject(buffers[0]);
clReleaseMemObject(buffers[1]);
clReleaseMemObject(buffers[2]);
clReleaseMemObject(buffers[3]);
clReleaseMemObject(pipe);
clReleaseKernel(kernel[0]);
clReleaseKernel(kernel[1]);
clReleaseKernel(kernel[2]);
clReleaseEvent(producer_sync_event);
clReleaseEvent(consumer_sync_event);
clReleaseEvent(pipe_query_sync_event);
clReleaseEvent(pipe_read_sync_event);
clReleaseProgram(program);
align_free(outptr1);
return -1;
}
if(pipe_num_packets != num_elements || pipe_max_packets != num_elements)
{
log_error("test_pipe_query_functions failed\n");
return -1;
}
// Launch Consumer kernel with half the previous global size
err = clEnqueueNDRangeKernel( queue, kernel[1], 1, NULL, half_global_work_size, NULL, 1, &producer_sync_event, &consumer_sync_event );
if ( err != CL_SUCCESS ){
print_error( err, " clEnqueueNDRangeKernel failed\n" );
clReleaseMemObject(buffers[0]);
clReleaseMemObject(buffers[1]);
clReleaseMemObject(buffers[2]);
clReleaseMemObject(buffers[3]);
clReleaseMemObject(pipe);
clReleaseKernel(kernel[0]);
clReleaseKernel(kernel[1]);
clReleaseKernel(kernel[2]);
clReleaseEvent(producer_sync_event);
clReleaseEvent(consumer_sync_event);
clReleaseEvent(pipe_query_sync_event);
clReleaseEvent(pipe_read_sync_event);
clReleaseProgram(program);
align_free(outptr1);
return -1;
}
err = clEnqueueReadBuffer(queue, buffers[1], true, 0, size / 2, outptr1, 1, &consumer_sync_event, NULL);
if ( err != CL_SUCCESS ){
print_error( err, " clEnqueueReadBuffer failed\n" );
clReleaseMemObject(buffers[0]);
clReleaseMemObject(buffers[1]);
clReleaseMemObject(buffers[2]);
clReleaseMemObject(buffers[3]);
clReleaseMemObject(pipe);
clReleaseKernel(kernel[0]);
clReleaseKernel(kernel[1]);
clReleaseKernel(kernel[2]);
clReleaseEvent(producer_sync_event);
clReleaseEvent(consumer_sync_event);
clReleaseEvent(pipe_query_sync_event);
clReleaseEvent(pipe_read_sync_event);
clReleaseProgram(program);
align_free(outptr1);
return -1;
}
// Launch Pipe query kernel
err = clEnqueueNDRangeKernel( queue, kernel[2], 1, NULL, global_work_size_pipe_query, NULL, 1, &consumer_sync_event, &pipe_query_sync_event );
if ( err != CL_SUCCESS ){
print_error( err, " clEnqueueNDRangeKernel failed\n" );
clReleaseMemObject(buffers[0]);
clReleaseMemObject(buffers[1]);
clReleaseMemObject(buffers[2]);
clReleaseMemObject(buffers[3]);
clReleaseMemObject(pipe);
clReleaseKernel(kernel[0]);
clReleaseKernel(kernel[1]);
clReleaseKernel(kernel[2]);
clReleaseEvent(producer_sync_event);
clReleaseEvent(consumer_sync_event);
clReleaseEvent(pipe_query_sync_event);
clReleaseEvent(pipe_read_sync_event);
clReleaseProgram(program);
align_free(outptr1);
return -1;
}
err = clEnqueueReadBuffer(queue, buffers[2], true, 0, sizeof(cl_int), &pipe_num_packets, 1, &pipe_query_sync_event, &pipe_read_sync_event);
if ( err != CL_SUCCESS ){
print_error( err, " clEnqueueReadBuffer failed\n" );
clReleaseMemObject(buffers[0]);
clReleaseMemObject(buffers[1]);
clReleaseMemObject(buffers[2]);
clReleaseMemObject(buffers[3]);
clReleaseMemObject(pipe);
clReleaseKernel(kernel[0]);
clReleaseKernel(kernel[1]);
clReleaseKernel(kernel[2]);
clReleaseEvent(producer_sync_event);
clReleaseEvent(consumer_sync_event);
clReleaseEvent(pipe_query_sync_event);
clReleaseEvent(pipe_read_sync_event);
clReleaseProgram(program);
align_free(outptr1);
return -1;
}
// After consumer kernel consumes num_elements/2 from the pipe,
// there are (num_elements - num_elements/2) remaining package in the pipe.
if(pipe_num_packets != (num_elements - num_elements/2))
{
log_error("test_pipe_query_functions failed\n");
return -1;
}
// Launch Producer kernel to fill the pipe again
global_work_size[0] = pipe_num_packets;
err = clEnqueueNDRangeKernel( queue, kernel[0], 1, NULL, global_work_size, NULL, 1, &pipe_read_sync_event, &producer_sync_event );
if ( err != CL_SUCCESS ){
print_error( err, " clEnqueueNDRangeKernel failed\n" );
clReleaseMemObject(buffers[0]);
clReleaseMemObject(buffers[1]);
clReleaseMemObject(buffers[2]);
clReleaseMemObject(buffers[3]);
clReleaseMemObject(pipe);
clReleaseKernel(kernel[0]);
clReleaseKernel(kernel[1]);
clReleaseKernel(kernel[2]);
clReleaseEvent(producer_sync_event);
clReleaseEvent(consumer_sync_event);
clReleaseEvent(pipe_query_sync_event);
clReleaseEvent(pipe_read_sync_event);
clReleaseProgram(program);
align_free(outptr1);
return -1;
}
// Launch Pipe query kernel
err = clEnqueueNDRangeKernel( queue, kernel[2], 1, NULL, global_work_size_pipe_query, NULL, 1, &producer_sync_event, &pipe_query_sync_event );
if ( err != CL_SUCCESS ){
print_error( err, " clEnqueueNDRangeKernel failed\n" );
clReleaseMemObject(buffers[0]);
clReleaseMemObject(buffers[1]);
clReleaseMemObject(buffers[2]);
clReleaseMemObject(buffers[3]);
clReleaseMemObject(pipe);
clReleaseKernel(kernel[0]);
clReleaseKernel(kernel[1]);
clReleaseKernel(kernel[2]);
clReleaseEvent(producer_sync_event);
clReleaseEvent(consumer_sync_event);
clReleaseEvent(pipe_query_sync_event);
clReleaseEvent(pipe_read_sync_event);
clReleaseProgram(program);
align_free(outptr1);
return -1;
}
err = clEnqueueReadBuffer(queue, buffers[2], true, 0, sizeof(cl_int), &pipe_num_packets, 1, &pipe_query_sync_event, &pipe_read_sync_event);
if ( err != CL_SUCCESS ){
print_error( err, " clEnqueueReadBuffer failed\n" );
clReleaseMemObject(buffers[0]);
clReleaseMemObject(buffers[1]);
clReleaseMemObject(buffers[2]);
clReleaseMemObject(buffers[3]);
clReleaseMemObject(pipe);
clReleaseKernel(kernel[0]);
clReleaseKernel(kernel[1]);
clReleaseKernel(kernel[2]);
clReleaseEvent(producer_sync_event);
clReleaseEvent(consumer_sync_event);
clReleaseEvent(pipe_query_sync_event);
clReleaseEvent(pipe_read_sync_event);
clReleaseProgram(program);
align_free(outptr1);
return -1;
}
if(pipe_num_packets != num_elements)
{
log_error("test_pipe_query_functions failed\n");
return -1;
}
// Launch Consumer kernel to consume all packets from pipe
global_work_size[0] = pipe_num_packets;
err = clEnqueueNDRangeKernel( queue, kernel[1], 1, NULL, global_work_size, NULL, 1, &pipe_read_sync_event, &consumer_sync_event );
if ( err != CL_SUCCESS ){
print_error( err, " clEnqueueNDRangeKernel failed\n" );
clReleaseMemObject(buffers[0]);
clReleaseMemObject(buffers[1]);
clReleaseMemObject(buffers[2]);
clReleaseMemObject(buffers[3]);
clReleaseMemObject(pipe);
clReleaseKernel(kernel[0]);
clReleaseKernel(kernel[1]);
clReleaseKernel(kernel[2]);
clReleaseEvent(producer_sync_event);
clReleaseEvent(consumer_sync_event);
clReleaseEvent(pipe_query_sync_event);
clReleaseEvent(pipe_read_sync_event);
clReleaseProgram(program);
align_free(outptr1);
return -1;
}
err = clEnqueueReadBuffer(queue, buffers[1], true, 0, size, outptr2, 1, &consumer_sync_event, NULL);
if ( err != CL_SUCCESS ){
print_error( err, " clEnqueueReadBuffer failed\n" );
clReleaseMemObject(buffers[0]);
clReleaseMemObject(buffers[1]);
clReleaseMemObject(buffers[2]);
clReleaseMemObject(buffers[3]);
clReleaseMemObject(pipe);
clReleaseKernel(kernel[0]);
clReleaseKernel(kernel[1]);
clReleaseKernel(kernel[2]);
clReleaseEvent(producer_sync_event);
clReleaseEvent(consumer_sync_event);
clReleaseEvent(pipe_query_sync_event);
clReleaseEvent(pipe_read_sync_event);
clReleaseProgram(program);
align_free(outptr1);
return -1;
}
if( verify_result(outptr1, outptr2, num_elements )){
log_error("test_pipe_query_functions failed\n");
return -1;
}
else {
log_info("test_pipe_query_functions passed\n");
}
//cleanup
clReleaseMemObject(buffers[0]);
clReleaseMemObject(buffers[1]);
clReleaseMemObject(buffers[2]);
clReleaseMemObject(buffers[3]);
clReleaseMemObject(pipe);
clReleaseKernel(kernel[0]);
clReleaseKernel(kernel[1]);
clReleaseKernel(kernel[2]);
clReleaseEvent(producer_sync_event);
clReleaseEvent(consumer_sync_event);
clReleaseEvent(pipe_query_sync_event);
clReleaseEvent(pipe_read_sync_event);
clReleaseProgram(program);
align_free(outptr1);
return 0;
}
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