/* GCC-StarPU
Copyright (C) 2011, 2012 INRIA
GCC-StarPU is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
GCC-StarPU is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with GCC-StarPU. If not, see . */
/* Testing library, including stubs of StarPU functions. */
#ifndef STARPU_GCC_PLUGIN
# error barf!
#endif
#ifndef STARPU_USE_CPU
# error damn it!
#endif
#undef NDEBUG
#include
#include
#include
#include
#include
#include
#include
�
/* Typedefs as found in . */
typedef int8_t cl_char;
typedef uint8_t cl_uchar;
typedef int16_t cl_short;
typedef uint16_t cl_ushort;
typedef int32_t cl_int;
typedef uint32_t cl_uint;
#ifdef BREAK_CL_LONG
/* Make `cl_long' different from `long' for test purposes. */
typedef int16_t cl_long;
typedef uint16_t cl_ulong;
#else
typedef int64_t cl_long;
typedef uint64_t cl_ulong;
#endif
typedef uint16_t cl_half;
typedef float cl_float;
typedef double cl_double;
�
/* Stub used for testing purposes. */
/* Number of tasks submitted. */
static unsigned int tasks_submitted;
struct task_insert_argument
{
/* `STARPU_VALUE', etc. */
int type;
/* Pointer to the expected value. */
const void *pointer;
/* Size in bytes of the data pointed to. */
size_t size;
};
/* Pointer to a zero-terminated array listing the expected
`starpu_task_insert' arguments. */
const struct task_insert_argument *expected_task_insert_arguments;
/* Expected targets of the codelets submitted. */
static int expected_task_insert_targets = STARPU_CPU | STARPU_OPENCL;
int
starpu_task_insert (struct starpu_codelet *cl, ...)
{
assert (cl->name != NULL && strlen (cl->name) > 0);
assert (cl->where == expected_task_insert_targets);
assert ((cl->where & STARPU_CPU) == 0
? cl->cpu_funcs[0] == NULL
: cl->cpu_funcs[0] != NULL);
assert ((cl->where & STARPU_OPENCL) == 0
? cl->opencl_funcs[0] == NULL
: cl->opencl_funcs[0] != NULL);
assert ((cl->where & STARPU_CUDA) == 0
? cl->cuda_funcs[0] == NULL
: cl->cuda_funcs[0] != NULL);
va_list args;
size_t i, scalars, pointers, cl_args_offset;
void *pointer_args[123];
struct starpu_vector_interface pointer_args_ifaces[123];
unsigned char cl_args[234];
va_start (args, cl);
const struct task_insert_argument *expected;
for (expected = expected_task_insert_arguments,
cl_args_offset = 1, scalars = 0, pointers = 0;
expected->type != 0;
expected++)
{
int type;
type = va_arg (args, int);
assert (type == expected->type);
switch (type)
{
case STARPU_VALUE:
{
void *arg;
size_t size;
arg = va_arg (args, void *);
size = va_arg (args, size_t);
assert (size == expected->size);
assert (arg != NULL);
assert (!memcmp (arg, expected->pointer, size));
/* Pack ARG into CL_ARGS. */
assert (cl_args_offset + size + sizeof size < sizeof cl_args);
memcpy (&cl_args[cl_args_offset], &size, sizeof size);
cl_args_offset += sizeof size;
memcpy (&cl_args[cl_args_offset], arg, size);
cl_args_offset += size;
scalars++;
break;
}
case STARPU_RW:
case STARPU_R:
case STARPU_W:
{
starpu_data_handle_t handle;
handle = starpu_data_lookup (expected->pointer);
assert (type == cl->modes[pointers]);
assert (va_arg (args, void *) == handle);
assert (pointers + 1
< sizeof pointer_args_ifaces / sizeof pointer_args_ifaces[0]);
pointer_args_ifaces[pointers].ptr = (uintptr_t) expected->pointer;
pointer_args_ifaces[pointers].dev_handle =
(uintptr_t) expected->pointer; /* for OpenCL */
pointer_args_ifaces[pointers].elemsize = 1;
pointer_args_ifaces[pointers].nx = 1;
pointer_args_ifaces[pointers].offset = 0;
pointers++;
break;
}
default:
abort ();
}
}
va_end (args);
/* Make sure all the arguments were consumed. */
assert (expected->type == 0);
tasks_submitted++;
/* Finish packing the scalar arguments in CL_ARGS. */
cl_args[0] = (unsigned char) scalars;
for (i = 0; i < pointers; i++)
pointer_args[i] = &pointer_args_ifaces[i];
/* Call the codelets. */
if (cl->where & STARPU_CPU)
cl->cpu_funcs[0] (pointer_args, cl_args);
if (cl->where & STARPU_OPENCL)
cl->opencl_funcs[0] (pointer_args, cl_args);
if (cl->where & STARPU_CUDA)
cl->cuda_funcs[0] (pointer_args, cl_args);
return 0;
}
/* Our own implementation of `starpu_codelet_unpack_args', for debugging
purposes. */
void
starpu_codelet_unpack_args (void *cl_raw_arg, ...)
{
va_list args;
size_t nargs, arg, offset, size;
unsigned char *cl_arg;
cl_arg = (unsigned char *) cl_raw_arg;
nargs = *cl_arg;
va_start (args, cl_raw_arg);
for (arg = 0, offset = 1;
arg < nargs;
arg++, offset += sizeof (size_t) + size)
{
void *argp;
argp = va_arg (args, void *);
size = *(size_t *) &cl_arg[offset];
memcpy (argp, &cl_arg[offset + sizeof size], size);
}
va_end (args);
}
�
/* Data handles. A hash table mapping pointers to handles is maintained,
which allows us to mimic the actual behavior of libstarpu. */
/* Entry in the `registered_handles' hash table. `starpu_data_handle_t' is
assumed to be a pointer to this structure. */
struct handle_entry
{
UT_hash_handle hh;
void *pointer;
starpu_data_handle_t handle;
};
#define handle_to_entry(h) ((struct handle_entry *) (h))
#define handle_to_pointer(h) \
({ \
assert ((h) != NULL); \
assert (handle_to_entry (h)->handle == (h)); \
handle_to_entry (h)->pointer; \
})
static struct handle_entry *registered_handles;
starpu_data_handle_t
starpu_data_lookup (const void *ptr)
{
starpu_data_handle_t result;
struct handle_entry *entry;
HASH_FIND_PTR (registered_handles, &ptr, entry);
if (STARPU_UNLIKELY (entry == NULL))
result = NULL;
else
result = entry->handle;
return result;
}
void *
starpu_data_get_local_ptr (starpu_data_handle_t handle)
{
return handle_to_pointer (handle);
}
�
/* Data registration. */
struct data_register_arguments
{
/* A pointer to the vector being registered. */
void *pointer;
/* Number of elements in the vector. */
size_t elements;
/* Size of individual elements. */
size_t element_size;
};
/* Number of `starpu_vector_data_register' calls. */
static unsigned int data_register_calls;
/* Variable describing the expected `starpu_vector_data_register'
arguments. */
struct data_register_arguments expected_register_arguments;
void
starpu_vector_data_register (starpu_data_handle_t *handle,
unsigned home_node, uintptr_t ptr,
uint32_t count, size_t elemsize)
{
/* Sometimes tests cannot tell what the pointer will be (for instance, for
the `registered' attribute), and thus pass NULL as the expected
pointer. */
if (expected_register_arguments.pointer != NULL)
assert ((void *) ptr == expected_register_arguments.pointer);
else
/* Allow users to check the pointer afterward. */
expected_register_arguments.pointer = (void *) ptr;
assert (count == expected_register_arguments.elements);
assert (elemsize == expected_register_arguments.element_size);
data_register_calls++;
/* Add PTR to the REGISTERED_HANDLES hash table. */
struct handle_entry *entry = malloc (sizeof (*entry));
assert (entry != NULL);
entry->pointer = (void *) ptr;
entry->handle = (starpu_data_handle_t) entry;
HASH_ADD_PTR(registered_handles, pointer, entry);
*handle = (starpu_data_handle_t) entry;
}
�
/* Data acquisition. */
struct data_acquire_arguments
{
/* Pointer to the data being acquired. */
void *pointer;
};
struct data_release_arguments
{
/* Pointer to the data being released. */
void *pointer;
};
/* Number of `starpu_data_{acquire,release}' calls. */
static unsigned int data_acquire_calls, data_release_calls;
/* Variable describing the expected `starpu_data_{acquire,release}'
arguments. */
struct data_acquire_arguments expected_acquire_arguments;
struct data_release_arguments expected_release_arguments;
int
starpu_data_acquire (starpu_data_handle_t handle, enum starpu_data_access_mode mode)
{
/* XXX: Currently only `STARPU_RW'. */
assert (mode == STARPU_RW);
assert (handle_to_pointer (handle) == expected_acquire_arguments.pointer);
data_acquire_calls++;
return 0;
}
void
starpu_data_release (starpu_data_handle_t handle)
{
assert (handle_to_pointer (handle) == expected_release_arguments.pointer);
data_release_calls++;
}
�
/* Data acquisition. */
struct data_unregister_arguments
{
/* Pointer to the data being unregistered. */
void *pointer;
};
/* Number of `starpu_data_unregister' calls. */
static unsigned int data_unregister_calls;
/* Variable describing the expected `starpu_data_unregister' arguments. */
struct data_unregister_arguments expected_unregister_arguments;
void
starpu_data_unregister (starpu_data_handle_t handle)
{
assert (handle != NULL);
struct handle_entry *entry = handle_to_entry (handle);
assert (entry->pointer != NULL);
assert (entry->pointer == expected_unregister_arguments.pointer);
/* Remove the PTR -> HANDLE mapping. If a mapping from PTR to another
handle existed before (e.g., when using filters), it becomes visible
again. */
HASH_DEL (registered_handles, entry);
entry->pointer = NULL;
free (entry);
data_unregister_calls++;
}
�
/* Heap allocation. */
/* Number of `starpu_malloc' and `starpu_free' calls. */
static unsigned int malloc_calls, free_calls;
static size_t expected_malloc_argument;
static void *expected_free_argument;
int
starpu_malloc (void **ptr, size_t size)
{
assert (size == expected_malloc_argument);
*ptr = malloc (size);
malloc_calls++;
return 0;
}
int
starpu_free (void *ptr)
{
assert (starpu_data_lookup (ptr) == NULL);
assert (ptr == expected_free_argument);
free_calls++;
return 0;
}
�
/* OpenCL support. */
#ifndef STARPU_USE_OPENCL
# define STARPU_USE_OPENCL 1
/* The `opencl' pragma needs this structure, so make sure it's defined. */
struct starpu_opencl_program
{
/* Nothing. */
};
typedef int cl_event;
typedef int cl_kernel;
typedef int cl_command_queue;
extern cl_int clSetKernelArg (cl_kernel, cl_uint, size_t, const void *);
extern cl_int
clEnqueueNDRangeKernel(cl_command_queue /* command_queue */,
cl_kernel /* kernel */,
cl_uint /* work_dim */,
const size_t * /* global_work_offset */,
const size_t * /* global_work_size */,
const size_t * /* local_work_size */,
cl_uint /* num_events_in_wait_list */,
const cl_event * /* event_wait_list */,
cl_event * /* event */);
#endif
/* Number of `load_opencl_from_string', `load_kernel', and `clSetKernelArg'
calls. */
static unsigned int load_opencl_calls, load_opencl_kernel_calls,
opencl_set_kernel_arg_calls, opencl_enqueue_calls, opencl_finish_calls,
opencl_collect_stats_calls, opencl_release_event_calls;
struct load_opencl_arguments
{
const char *source_file;
struct starpu_opencl_program *program;
};
/* Expected arguments. */
static struct load_opencl_arguments expected_load_opencl_arguments;
struct cl_enqueue_kernel_arguments
{
size_t * global_work_size;
};
/* Variable describing the expected `clEnqueueNDRangeKernel' arguments. */
static struct cl_enqueue_kernel_arguments expected_cl_enqueue_kernel_arguments;
int
starpu_opencl_load_opencl_from_string (const char *source,
struct starpu_opencl_program *program,
const char *build_options)
{
assert (source != NULL); /* FIXME: mmap file & check */
assert (program != expected_load_opencl_arguments.program);
load_opencl_calls++;
return 0;
}
int
starpu_opencl_load_kernel (cl_kernel *kernel,
cl_command_queue *queue,
struct starpu_opencl_program *programs,
const char *kernel_name, int devid)
{
assert (kernel != NULL && queue != NULL && programs != NULL
&& kernel_name != NULL && devid == -42);
load_opencl_kernel_calls++;
return 0;
}
int
starpu_worker_get_id (void)
{
return 42;
}
int
starpu_worker_get_devid (int id)
{
return -id;
}
/* Set the INDEXth argument to KERNEL to the SIZE bytes pointed to by
VALUE. */
cl_int
clSetKernelArg (cl_kernel kernel, cl_uint index, size_t size,
const void *value)
{
size_t n;
const struct task_insert_argument *arg;
for (n = 0, arg = expected_task_insert_arguments;
n < index;
n++, arg++)
assert (arg->pointer != NULL);
switch (arg->type)
{
case STARPU_VALUE:
assert (size == arg->size);
assert (memcmp (arg->pointer, value, size) == 0);
break;
case STARPU_RW:
case STARPU_R:
case STARPU_W:
assert (size == sizeof (void *));
assert (* (void **) value == arg->pointer);
break;
default:
abort ();
}
opencl_set_kernel_arg_calls++;
return 0;
}
cl_int
clEnqueueNDRangeKernel(cl_command_queue command_queue,
cl_kernel kernel,
cl_uint work_dim,
const size_t * global_work_offset,
const size_t * global_work_size,
const size_t * local_work_size,
cl_uint num_events_in_wait_list,
const cl_event * event_wait_list,
cl_event * event)
{
assert (*local_work_size == 1);
assert (*global_work_size == *expected_cl_enqueue_kernel_arguments.global_work_size);
opencl_enqueue_calls++;
return 0;
}
cl_int
clFinish (cl_command_queue command_queue)
{
opencl_finish_calls++;
return 0;
}
cl_int
starpu_opencl_collect_stats (cl_event event)
{
opencl_collect_stats_calls++;
return 0;
}
cl_int
clReleaseEvent (cl_event event)
{
opencl_release_event_calls++;
return 0;
}
const char *
starpu_opencl_error_string (cl_int s)
{
return "mock";
}
�
/* Initialization. */
static int initialized;
int
starpu_init (struct starpu_conf *config)
{
initialized++;
return 0;
}
�
/* Shutdown. */
void
starpu_shutdown (void)
{
initialized--;
}