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|
/*
* Copyright © 2007, 2011, 2013, 2014 Intel Corporation
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice (including the next
* paragraph) shall be included in all copies or substantial portions of the
* Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
* IN THE SOFTWARE.
*
* Authors:
* Eric Anholt <eric@anholt.net>
* Daniel Vetter <daniel.vetter@ffwll.ch>
*
*/
#ifndef ANDROID
#define _GNU_SOURCE
#else
#include <libgen.h>
#endif
#include <stdio.h>
#include <fcntl.h>
#include <sys/stat.h>
#include <sys/ioctl.h>
#include <string.h>
#include <sys/mman.h>
#include <signal.h>
#include <pciaccess.h>
#include <getopt.h>
#include <stdlib.h>
#include <unistd.h>
#include <sys/wait.h>
#include <sys/types.h>
#include <sys/syscall.h>
#include <sys/utsname.h>
#include <termios.h>
#include <errno.h>
#include "drmtest.h"
#include "i915_drm.h"
#include "intel_chipset.h"
#include "intel_io.h"
#include "igt_debugfs.h"
#include "../version.h"
#include "config.h"
#include "ioctl_wrappers.h"
/**
* SECTION:ioctl_wrappers
* @short_description: ioctl wrappers and related functions
* @title: ioctl wrappers
* @include: ioctl_wrappers.h
*
* This helper library contains simple functions to wrap the raw drm/i915 kernel
* ioctls. The normal versions never pass any error codes to the caller and use
* igt_assert() to check for error conditions instead. For some ioctls raw
* wrappers which do pass on error codes are available. These raw wrappers have
* a __ prefix.
*
* For wrappers which check for feature bits there can also be two versions: The
* normal one simply returns a boolean to the caller. But when skipping the
* testcase entirely is the right action then it's better to use igt_skip()
* directly in the wrapper. Such functions have _require_ in their name to
* distinguish them.
*/
/**
* gem_handle_to_libdrm_bo:
* @bufmgr: libdrm buffer manager instance
* @fd: open i915 drm file descriptor
* @name: buffer name in libdrm
* @handle: gem buffer object handle
*
* This helper function imports a raw gem buffer handle into the libdrm buffer
* manager.
*
* Returns: The imported libdrm buffer manager object.
*/
drm_intel_bo *
gem_handle_to_libdrm_bo(drm_intel_bufmgr *bufmgr, int fd, const char *name, uint32_t handle)
{
struct drm_gem_flink flink;
int ret;
drm_intel_bo *bo;
flink.handle = handle;
ret = ioctl(fd, DRM_IOCTL_GEM_FLINK, &flink);
igt_assert(ret == 0);
bo = drm_intel_bo_gem_create_from_name(bufmgr, name, flink.name);
igt_assert(bo);
return bo;
}
int __gem_set_tiling(int fd, uint32_t handle, uint32_t tiling, uint32_t stride)
{
struct drm_i915_gem_set_tiling st;
int ret;
memset(&st, 0, sizeof(st));
do {
st.handle = handle;
st.tiling_mode = tiling;
st.stride = tiling ? stride : 0;
ret = ioctl(fd, DRM_IOCTL_I915_GEM_SET_TILING, &st);
} while (ret == -1 && (errno == EINTR || errno == EAGAIN));
if (ret != 0)
return -errno;
igt_assert(st.tiling_mode == tiling);
return 0;
}
/**
* gem_set_tiling:
* @fd: open i915 drm file descriptor
* @handle: gem buffer object handle
* @tiling: tiling mode bits
* @stride: stride of the buffer when using a tiled mode, otherwise must be 0
*
* This wraps the SET_TILING ioctl.
*/
void gem_set_tiling(int fd, uint32_t handle, uint32_t tiling, uint32_t stride)
{
igt_assert(__gem_set_tiling(fd, handle, tiling, stride) == 0);
}
struct local_drm_i915_gem_caching {
uint32_t handle;
uint32_t caching;
};
#define LOCAL_DRM_I915_GEM_SET_CACHEING 0x2f
#define LOCAL_DRM_I915_GEM_GET_CACHEING 0x30
#define LOCAL_DRM_IOCTL_I915_GEM_SET_CACHEING \
DRM_IOW(DRM_COMMAND_BASE + LOCAL_DRM_I915_GEM_SET_CACHEING, struct local_drm_i915_gem_caching)
#define LOCAL_DRM_IOCTL_I915_GEM_GET_CACHEING \
DRM_IOWR(DRM_COMMAND_BASE + LOCAL_DRM_I915_GEM_GET_CACHEING, struct local_drm_i915_gem_caching)
/**
* gem_set_caching:
* @fd: open i915 drm file descriptor
* @handle: gem buffer object handle
* @caching: caching mode bits
*
* This wraps the SET_CACHING ioctl. Note that this function internally calls
* igt_require() when SET_CACHING isn't available, hence automatically skips the
* test. Therefore always extract test logic which uses this into its own
* subtest.
*/
void gem_set_caching(int fd, uint32_t handle, uint32_t caching)
{
struct local_drm_i915_gem_caching arg;
int ret;
arg.handle = handle;
arg.caching = caching;
ret = ioctl(fd, LOCAL_DRM_IOCTL_I915_GEM_SET_CACHEING, &arg);
igt_assert(ret == 0 || (errno == ENOTTY || errno == EINVAL));
igt_require(ret == 0);
}
/**
* gem_get_caching:
* @fd: open i915 drm file descriptor
* @handle: gem buffer object handle
*
* This wraps the GET_CACHING ioctl.
*
* Returns: The current caching mode bits.
*/
uint32_t gem_get_caching(int fd, uint32_t handle)
{
struct local_drm_i915_gem_caching arg;
int ret;
arg.handle = handle;
arg.caching = 0;
ret = ioctl(fd, LOCAL_DRM_IOCTL_I915_GEM_GET_CACHEING, &arg);
igt_assert(ret == 0);
return arg.caching;
}
/**
* gem_open:
* @fd: open i915 drm file descriptor
* @name: flink buffer name
*
* This wraps the GEM_OPEN ioctl, which is used to import an flink name.
*
* Returns: gem file-private buffer handle of the open object.
*/
uint32_t gem_open(int fd, uint32_t name)
{
struct drm_gem_open open_struct;
int ret;
open_struct.name = name;
ret = ioctl(fd, DRM_IOCTL_GEM_OPEN, &open_struct);
igt_assert(ret == 0);
igt_assert(open_struct.handle != 0);
return open_struct.handle;
}
/**
* gem_flink:
* @fd: open i915 drm file descriptor
* @handle: file-private gem buffer object handle
*
* This wraps the GEM_FLINK ioctl, which is used to export a gem buffer object
* into the device-global flink namespace. See gem_open() for opening such a
* buffer name on a different i915 drm file descriptor.
*
* Returns: The created flink buffer name.
*/
uint32_t gem_flink(int fd, uint32_t handle)
{
struct drm_gem_flink flink;
int ret;
flink.handle = handle;
ret = ioctl(fd, DRM_IOCTL_GEM_FLINK, &flink);
igt_assert(ret == 0);
return flink.name;
}
/**
* gem_close:
* @fd: open i915 drm file descriptor
* @handle: gem buffer object handle
*
* This wraps the GEM_CLOSE ioctl, which to release a file-private gem buffer
* handle.
*/
void gem_close(int fd, uint32_t handle)
{
struct drm_gem_close close_bo;
close_bo.handle = handle;
do_ioctl(fd, DRM_IOCTL_GEM_CLOSE, &close_bo);
}
/**
* gem_write:
* @fd: open i915 drm file descriptor
* @handle: gem buffer object handle
* @offset: offset within the buffer of the subrange
* @buf: pointer to the data to write into the buffer
* @length: size of the subrange
*
* This wraps the PWRITE ioctl, which is to upload a linear data to a subrange
* of a gem buffer object.
*/
void gem_write(int fd, uint32_t handle, uint32_t offset, const void *buf, uint32_t length)
{
struct drm_i915_gem_pwrite gem_pwrite;
gem_pwrite.handle = handle;
gem_pwrite.offset = offset;
gem_pwrite.size = length;
gem_pwrite.data_ptr = (uintptr_t)buf;
do_ioctl(fd, DRM_IOCTL_I915_GEM_PWRITE, &gem_pwrite);
}
/**
* gem_read:
* @fd: open i915 drm file descriptor
* @handle: gem buffer object handle
* @offset: offset within the buffer of the subrange
* @buf: pointer to the data to read into
* @length: size of the subrange
*
* This wraps the PREAD ioctl, which is to download a linear data to a subrange
* of a gem buffer object.
*/
void gem_read(int fd, uint32_t handle, uint32_t offset, void *buf, uint32_t length)
{
struct drm_i915_gem_pread gem_pread;
gem_pread.handle = handle;
gem_pread.offset = offset;
gem_pread.size = length;
gem_pread.data_ptr = (uintptr_t)buf;
do_ioctl(fd, DRM_IOCTL_I915_GEM_PREAD, &gem_pread);
}
/**
* gem_set_domain:
* @fd: open i915 drm file descriptor
* @handle: gem buffer object handle
* @read_domains: gem domain bits for read access
* @write_domain: gem domain bit for write access
*
* This wraps the SET_DOMAIN ioctl, which is used to control the coherency of
* the gem buffer object between the cpu and gtt mappings. It is also use to
* synchronize with outstanding rendering in general, but for that use-case
* please have a look at gem_sync().
*/
void gem_set_domain(int fd, uint32_t handle,
uint32_t read_domains, uint32_t write_domain)
{
struct drm_i915_gem_set_domain set_domain;
set_domain.handle = handle;
set_domain.read_domains = read_domains;
set_domain.write_domain = write_domain;
do_ioctl(fd, DRM_IOCTL_I915_GEM_SET_DOMAIN, &set_domain);
}
/**
* gem_sync:
* @fd: open i915 drm file descriptor
* @handle: gem buffer object handle
*
* This is a wrapper around gem_set_domain() which simply blocks for any
* outstanding rendering to complete.
*/
void gem_sync(int fd, uint32_t handle)
{
gem_set_domain(fd, handle, I915_GEM_DOMAIN_GTT, I915_GEM_DOMAIN_GTT);
}
uint32_t __gem_create(int fd, int size)
{
struct drm_i915_gem_create create;
int ret;
create.handle = 0;
create.size = size;
ret = drmIoctl(fd, DRM_IOCTL_I915_GEM_CREATE, &create);
if (ret < 0)
return 0;
else
return create.handle;
}
/**
* gem_create:
* @fd: open i915 drm file descriptor
* @size: desired size of the buffer
*
* This wraps the GEM_CREATE ioctl, which allocates a new gem buffer object of
* @size.
*
* Returns: The file-private handle of the created buffer object
*/
uint32_t gem_create(int fd, int size)
{
struct drm_i915_gem_create create;
create.handle = 0;
create.size = size;
do_ioctl(fd, DRM_IOCTL_I915_GEM_CREATE, &create);
igt_assert(create.handle);
return create.handle;
}
/**
* gem_execbuf:
* @fd: open i915 drm file descriptor
* @execbuf: execbuffer data structure
*
* This wraps the EXECBUFFER2 ioctl, which submits a batchbuffer for the gpu to
* run.
*/
void gem_execbuf(int fd, struct drm_i915_gem_execbuffer2 *execbuf)
{
int ret;
ret = drmIoctl(fd,
DRM_IOCTL_I915_GEM_EXECBUFFER2,
execbuf);
igt_assert(ret == 0);
}
/**
* gem_mmap__gtt:
* @fd: open i915 drm file descriptor
* @handle: gem buffer object handle
* @size: size of the gem buffer
* @prot: memory protection bits as used by mmap()
*
* This functions wraps up procedure to establish a memory mapping through the
* GTT.
*
* Returns: A pointer to the created memory mapping.
*/
void *gem_mmap__gtt(int fd, uint32_t handle, int size, int prot)
{
struct drm_i915_gem_mmap_gtt mmap_arg;
void *ptr;
mmap_arg.handle = handle;
if (drmIoctl(fd, DRM_IOCTL_I915_GEM_MMAP_GTT, &mmap_arg))
return NULL;
ptr = mmap64(0, size, prot, MAP_SHARED, fd, mmap_arg.offset);
if (ptr == MAP_FAILED)
ptr = NULL;
return ptr;
}
/**
* gem_mmap__cpu:
* @fd: open i915 drm file descriptor
* @handle: gem buffer object handle
* @size: size of the gem buffer
* @prot: memory protection bits as used by mmap()
*
* This functions wraps up procedure to establish a memory mapping through
* direct cpu access, bypassing the gpu completely.
*
* Returns: A pointer to the created memory mapping.
*/
void *gem_mmap__cpu(int fd, uint32_t handle, int size, int prot)
{
struct drm_i915_gem_mmap mmap_arg;
mmap_arg.handle = handle;
mmap_arg.offset = 0;
mmap_arg.size = size;
if (drmIoctl(fd, DRM_IOCTL_I915_GEM_MMAP, &mmap_arg))
return NULL;
return (void *)(uintptr_t)mmap_arg.addr_ptr;
}
/**
* gem_madvise:
* @fd: open i915 drm file descriptor
* @handle: gem buffer object handle
* @state: desired madvise state
*
* This is a wraps the MADVISE ioctl, which is used in libdrm to implement
* opportunistic buffer object caching. Objects in the cache are set to DONTNEED
* (internally in the kernel tracked as purgeable objects). When such a cached
* object is in need again it must be set back to WILLNEED before first use.
*
* Returns: When setting the madvise state to WILLNEED this returns whether the
* backing storage was still avialable or not.
*/
int gem_madvise(int fd, uint32_t handle, int state)
{
struct drm_i915_gem_madvise madv;
madv.handle = handle;
madv.madv = state;
madv.retained = 1;
do_ioctl(fd, DRM_IOCTL_I915_GEM_MADVISE, &madv);
return madv.retained;
}
/**
* gem_context_create:
* @fd: open i915 drm file descriptor
*
* This is a wraps the CONTEXT_CREATE ioctl, which is used to allocate a new
* hardware context. Not that similarly to gem_set_caching() this wrapper calls
* igt_require() internally to correctly skip on kernels and platforms where hw
* context support is not available.
*
* Returns: The id of the allocated hw context.
*/
uint32_t gem_context_create(int fd)
{
struct drm_i915_gem_context_create create;
int ret;
ret = drmIoctl(fd, DRM_IOCTL_I915_GEM_CONTEXT_CREATE, &create);
igt_require(ret == 0 || (errno != ENODEV && errno != EINVAL));
igt_assert(ret == 0);
return create.ctx_id;
}
/**
* gem_sw_finish:
* @fd: open i915 drm file descriptor
* @handle: gem buffer object handle
*
* This is a wraps the SW_FINISH ioctl, which is used to flush out frontbuffer
* rendering done through the direct cpu memory mappings. Shipping userspace
* does _not_ call this after frontbuffer rendering through gtt memory mappings.
*/
void gem_sw_finish(int fd, uint32_t handle)
{
struct drm_i915_gem_sw_finish finish;
finish.handle = handle;
do_ioctl(fd, DRM_IOCTL_I915_GEM_SW_FINISH, &finish);
}
/**
* gem_bo_busy:
* @fd: open i915 drm file descriptor
* @handle: gem buffer object handle
*
* This is a wraps the BUSY ioctl, which tells whether a buffer object is still
* actively used by the gpu in a execbuffer.
*
* Returns: The busy state of the buffer object.
*/
bool gem_bo_busy(int fd, uint32_t handle)
{
struct drm_i915_gem_busy busy;
busy.handle = handle;
do_ioctl(fd, DRM_IOCTL_I915_GEM_BUSY, &busy);
return !!busy.busy;
}
/* feature test helpers */
/**
* gem_uses_aliasing_ppgtt:
* @fd: open i915 drm file descriptor
*
* Feature test macro to check whether the kernel internally uses ppgtt to
* execute batches. The /aliasing/ in the function name is a bit a misnomer,
* this driver parameter is also true when full ppgtt address spaces are
* availabel since for batchbuffer construction only ppgtt or global gtt is
* relevant.
*
* Returns: Whether batches are run through ppgtt.
*/
bool gem_uses_aliasing_ppgtt(int fd)
{
struct drm_i915_getparam gp;
int val;
gp.param = 18; /* HAS_ALIASING_PPGTT */
gp.value = &val;
if (ioctl(fd, DRM_IOCTL_I915_GETPARAM, &gp, sizeof(gp)))
return 0;
return val;
}
/**
* gem_uses_aliasing_ppgtt:
* @fd: open i915 drm file descriptor
*
* Feature test macro to query the kernel for the number of available fences
* useable in a batchbuffer. Only relevant for pre-gen4.
*
* Returns: The number of available fences.
*/
int gem_available_fences(int fd)
{
struct drm_i915_getparam gp;
int val;
gp.param = I915_PARAM_NUM_FENCES_AVAIL;
gp.value = &val;
if (ioctl(fd, DRM_IOCTL_I915_GETPARAM, &gp, sizeof(gp)))
return 0;
return val;
}
/**
* gem_get_num_rings:
* @fd: open i915 drm file descriptor
*
* Feature test macro to query the number of avaible rings. This is useful in
* test loops which need to step through all rings and similar logic.
*
* For more explicit tests of ring availability see gem_has_enable_ring() and
* the ring specific versions like gem_has_bsd().
*
* Returns: The number of available rings.
*/
int gem_get_num_rings(int fd)
{
int num_rings = 1; /* render ring is always available */
if (gem_has_bsd(fd))
num_rings++;
else
goto skip;
if (gem_has_blt(fd))
num_rings++;
else
goto skip;
if (gem_has_vebox(fd))
num_rings++;
else
goto skip;
skip:
return num_rings;
}
/**
* gem_has_enable_ring:
* @fd: open i915 drm file descriptor
* @param: ring flag bit as used in gem_execbuf()
*
* Feature test macro to query whether a specific ring is available.
*
* Returns: Whether the ring is avaible or not.
*/
bool gem_has_enable_ring(int fd,int param)
{
drm_i915_getparam_t gp;
int ret, tmp;
memset(&gp, 0, sizeof(gp));
gp.value = &tmp;
gp.param = param;
ret = drmIoctl(fd, DRM_IOCTL_I915_GETPARAM, &gp);
if ((ret == 0) && (*gp.value > 0))
return true;
else
return false;
}
/**
* gem_has_bsd:
* @fd: open i915 drm file descriptor
*
* Feature test macro to query whether the BSD ring is available. This is simply
* a specific version of gem_has_enable_ring() for the BSD ring.
*
* Note that recent Bspec calls this the VCS ring for Video Command Submission.
*
* Returns: Whether the BSD ring is avaible or not.
*/
bool gem_has_bsd(int fd)
{
return gem_has_enable_ring(fd,I915_PARAM_HAS_BSD);
}
/**
* gem_has_blt:
* @fd: open i915 drm file descriptor
*
* Feature test macro to query whether the blitter ring is available. This is simply
* a specific version of gem_has_enable_ring() for the blitter ring.
*
* Note that recent Bspec calls this the BCS ring for Blitter Command Submission.
*
* Returns: Whether the blitter ring is avaible or not.
*/
bool gem_has_blt(int fd)
{
return gem_has_enable_ring(fd,I915_PARAM_HAS_BLT);
}
#define LOCAL_I915_PARAM_HAS_VEBOX 22
/**
* gem_has_vebox:
* @fd: open i915 drm file descriptor
*
* Feature test macro to query whether the vebox ring is available. This is simply
* a specific version of gem_has_enable_ring() for the vebox ring.
*
* Note that recent Bspec calls this the VECS ring for Video Enhancement Command
* Submission.
*
* Returns: Whether the vebox ring is avaible or not.
*/
bool gem_has_vebox(int fd)
{
return gem_has_enable_ring(fd,LOCAL_I915_PARAM_HAS_VEBOX);
}
/**
* gem_available_aperture_size:
* @fd: open i915 drm file descriptor
*
* Feature test macro to query the kernel for the available gpu aperture size
* useable in a batchbuffer.
*
* Returns: The available gtt address space size.
*/
uint64_t gem_available_aperture_size(int fd)
{
struct drm_i915_gem_get_aperture aperture;
aperture.aper_size = 256*1024*1024;
do_ioctl(fd, DRM_IOCTL_I915_GEM_GET_APERTURE, &aperture);
return aperture.aper_available_size;
}
/**
* gem_aperture_size:
* @fd: open i915 drm file descriptor
*
* Feature test macro to query the kernel for the total gpu aperture size.
*
* Returns: The total gtt address space size.
*/
uint64_t gem_aperture_size(int fd)
{
struct drm_i915_gem_get_aperture aperture;
aperture.aper_size = 256*1024*1024;
do_ioctl(fd, DRM_IOCTL_I915_GEM_GET_APERTURE, &aperture);
return aperture.aper_size;
}
/**
* gem_aperture_size:
* @fd: open i915 drm file descriptor
*
* Feature test macro to query the kernel for the mappable gpu aperture size.
* This is the area avaialble for GTT memory mappings.
*
* Returns: The mappable gtt address space size.
*/
uint64_t gem_mappable_aperture_size(void)
{
struct pci_device *pci_dev;
int bar;
pci_dev = intel_get_pci_device();
if (intel_gen(pci_dev->device_id) < 3)
bar = 0;
else
bar = 2;
return pci_dev->regions[bar].size;
}
/**
* gem_require_caching:
* @fd: open i915 drm file descriptor
*
* Feature test macro to query whether buffer object caching control is
* available. Automatically skips through igt_require() if not.
*/
void gem_require_caching(int fd)
{
struct local_drm_i915_gem_caching arg;
int ret;
arg.handle = gem_create(fd, 4096);
igt_assert(arg.handle != 0);
arg.caching = 0;
ret = ioctl(fd, LOCAL_DRM_IOCTL_I915_GEM_SET_CACHEING, &arg);
gem_close(fd, arg.handle);
igt_require(ret == 0);
}
/**
* gem_require_ring:
* @fd: open i915 drm file descriptor
* @ring_id: ring flag bit as used in gem_execbuf()
*
* Feature test macro to query whether a specific ring is available.
* In contrast to gem_has_enable_ring() this automagically skips if the ring
* isn't available by calling igt_require().
*/
void gem_require_ring(int fd, int ring_id)
{
switch (ring_id) {
case I915_EXEC_RENDER:
return;
case I915_EXEC_BLT:
igt_require(HAS_BLT_RING(intel_get_drm_devid(fd)));
return;
case I915_EXEC_BSD:
igt_require(HAS_BSD_RING(intel_get_drm_devid(fd)));
return;
#ifdef I915_EXEC_VEBOX
case I915_EXEC_VEBOX:
igt_require(gem_has_vebox(fd));
return;
#endif
default:
igt_assert(0);
return;
}
}
/* prime */
/**
* prime_handle_to_fd:
* @fd: open i915 drm file descriptor
* @handle: file-private gem buffer object handle
*
* This wraps the PRIME_HANDLE_TO_FD ioctl, which is used to export a gem buffer
* object into a global (i.e. potentially cross-device) dma-buf file-descriptor
* handle.
*
* Returns: The created dma-buf fd handle.
*/
int prime_handle_to_fd(int fd, uint32_t handle)
{
struct drm_prime_handle args;
args.handle = handle;
args.flags = DRM_CLOEXEC;
args.fd = -1;
do_ioctl(fd, DRM_IOCTL_PRIME_HANDLE_TO_FD, &args);
return args.fd;
}
/**
* prime_fd_to_handle:
* @fd: open i915 drm file descriptor
* @dma_buf_fd: dma-buf fd handle
*
* This wraps the PRIME_FD_TO_HANDLE ioctl, which is used to import a dma-buf
* file-descriptor into a gem buffer object.
*
* Returns: The created gem buffer object handle.
*/
uint32_t prime_fd_to_handle(int fd, int dma_buf_fd)
{
struct drm_prime_handle args;
args.fd = dma_buf_fd;
args.flags = 0;
args.handle = 0;
do_ioctl(fd, DRM_IOCTL_PRIME_FD_TO_HANDLE, &args);
return args.handle;
}
/**
* prime_get_size:
* @dma_buf_fd: dma-buf fd handle
*
* This wraps the lseek() protocol used to query the invariant size of a
* dma-buf. Not all kernels support this, which is check with igt_require() and
* so will result in automagic test skipping.
*
* Returns: The lifetime-invariant size of the dma-buf object.
*/
off_t prime_get_size(int dma_buf_fd)
{
off_t ret;
ret = lseek(dma_buf_fd, 0, SEEK_END);
igt_assert(ret >= 0 || errno == ESPIPE);
igt_require(ret >= 0);
return ret;
}
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