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KirkOS/user/include/mlibc/sysdeps/managarm/generic/drm.cpp
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kaguya 9a9b91c940 user: implement mlibc as the libc, finally. 
It's finally done..

Signed-off-by: kaguya <vpshinomiya@protonmail.com>
2026-05-02 03:31:49 -04:00

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#include <drm/drm.h>
#include <drm/drm_fourcc.h>
#include <bits/ensure.h>
#include <bits/errors.hpp>
#include <mlibc/all-sysdeps.hpp>
#include <mlibc/allocator.hpp>
#include <mlibc/debug.hpp>
#include <mlibc/posix-pipe.hpp>
#include <fs.frigg_bragi.hpp>
namespace mlibc {
int ioctl_drm(int fd, unsigned long request, void *arg, int *result, HelHandle handle) {
managarm::fs::IoctlRequest<MemoryAllocator> ioctl_req(getSysdepsAllocator());
switch (request) {
case DRM_IOCTL_VERSION: {
auto param = reinterpret_cast<drm_version *>(arg);
managarm::fs::GenericIoctlRequest<MemoryAllocator> req(getSysdepsAllocator());
req.set_command(request);
auto [offer, send_ioctl_req, send_req, recv_resp] = exchangeMsgsSync(
handle,
helix_ng::offer(
helix_ng::sendBragiHeadOnly(ioctl_req, getSysdepsAllocator()),
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_ioctl_req.error());
HEL_CHECK(send_req.error());
HEL_CHECK(recv_resp.error());
managarm::fs::GenericIoctlReply<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
__ensure(resp.error() == managarm::fs::Errors::SUCCESS);
param->version_major = resp.drm_version_major();
param->version_minor = resp.drm_version_minor();
param->version_patchlevel = resp.drm_version_patchlevel();
if (param->name)
memcpy(
param->name,
resp.drm_driver_name().data(),
frg::min(param->name_len, resp.drm_driver_name().size())
);
if (param->date)
memcpy(
param->date,
resp.drm_driver_date().data(),
frg::min(param->date_len, resp.drm_driver_date().size())
);
if (param->desc)
memcpy(
param->desc,
resp.drm_driver_desc().data(),
frg::min(param->desc_len, resp.drm_driver_desc().size())
);
param->name_len = resp.drm_driver_name().size();
param->date_len = resp.drm_driver_date().size();
param->desc_len = resp.drm_driver_desc().size();
*result = resp.result();
return 0;
}
case DRM_IOCTL_GET_CAP: {
auto param = reinterpret_cast<drm_get_cap *>(arg);
managarm::fs::GenericIoctlRequest<MemoryAllocator> req(getSysdepsAllocator());
req.set_command(request);
req.set_drm_capability(param->capability);
auto [offer, send_ioctl_req, send_req, recv_resp] = exchangeMsgsSync(
handle,
helix_ng::offer(
helix_ng::sendBragiHeadOnly(ioctl_req, getSysdepsAllocator()),
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_ioctl_req.error());
HEL_CHECK(send_req.error());
HEL_CHECK(recv_resp.error());
managarm::fs::GenericIoctlReply<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
if (resp.error() == managarm::fs::Errors::ILLEGAL_ARGUMENT) {
return EINVAL;
} else {
__ensure(resp.error() == managarm::fs::Errors::SUCCESS);
param->value = resp.drm_value();
*result = resp.result();
return 0;
}
}
case DRM_IOCTL_SET_CLIENT_CAP: {
auto param = reinterpret_cast<drm_set_client_cap *>(arg);
mlibc::infoLogger() << "\e[35mmlibc: DRM_IOCTL_SET_CLIENT_CAP(" << param->capability
<< ") ignores its value\e[39m" << frg::endlog;
managarm::fs::GenericIoctlRequest<MemoryAllocator> req(getSysdepsAllocator());
req.set_command(request);
req.set_drm_capability(param->capability);
auto [offer, send_ioctl_req, send_req, recv_resp] = exchangeMsgsSync(
handle,
helix_ng::offer(
helix_ng::sendBragiHeadOnly(ioctl_req, getSysdepsAllocator()),
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_ioctl_req.error());
HEL_CHECK(send_req.error());
HEL_CHECK(recv_resp.error());
managarm::fs::GenericIoctlReply<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
if (resp.error() == managarm::fs::Errors::ILLEGAL_ARGUMENT) {
return EINVAL;
} else {
__ensure(resp.error() == managarm::fs::Errors::SUCCESS);
param->value = resp.drm_value();
*result = resp.result();
return 0;
}
}
case DRM_IOCTL_GET_MAGIC: {
auto param = reinterpret_cast<drm_auth *>(arg);
mlibc::infoLogger(
) << "\e[31mmlibc: DRM_IOCTL_GET_MAGIC is not implemented correctly\e[39m"
<< frg::endlog;
param->magic = 1;
*result = 0;
return 0;
}
case DRM_IOCTL_AUTH_MAGIC: {
mlibc::infoLogger(
) << "\e[31mmlibc: DRM_IOCTL_AUTH_MAGIC is not implemented correctly\e[39m"
<< frg::endlog;
*result = 0;
return 0;
}
case DRM_IOCTL_SET_MASTER: {
mlibc::infoLogger(
) << "\e[31mmlibc: DRM_IOCTL_SET_MASTER is not implemented correctly\e[39m"
<< frg::endlog;
*result = 0;
return 0;
}
case DRM_IOCTL_DROP_MASTER: {
mlibc::infoLogger(
) << "\e[31mmlibc: DRM_IOCTL_DROP_MASTER is not implemented correctly\e[39m"
<< frg::endlog;
*result = 0;
return 0;
}
case DRM_IOCTL_MODE_GETRESOURCES: {
auto param = reinterpret_cast<drm_mode_card_res *>(arg);
managarm::fs::GenericIoctlRequest<MemoryAllocator> req(getSysdepsAllocator());
req.set_command(request);
auto [offer, send_ioctl_req, send_req, recv_resp] = exchangeMsgsSync(
handle,
helix_ng::offer(
helix_ng::sendBragiHeadOnly(ioctl_req, getSysdepsAllocator()),
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_ioctl_req.error());
HEL_CHECK(send_req.error());
HEL_CHECK(recv_resp.error());
if (recv_resp.error() == kHelErrDismissed) {
return EINVAL;
}
managarm::fs::GenericIoctlReply<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
if (resp.error() != managarm::fs::Errors::SUCCESS)
return resp.error() | toErrno;
for (size_t i = 0; i < resp.drm_fb_ids_size(); i++) {
if (i >= param->count_fbs)
break;
auto dest = reinterpret_cast<uint32_t *>(param->fb_id_ptr);
dest[i] = resp.drm_fb_ids(i);
}
param->count_fbs = resp.drm_fb_ids_size();
for (size_t i = 0; i < resp.drm_crtc_ids_size(); i++) {
if (i >= param->count_crtcs)
break;
auto dest = reinterpret_cast<uint32_t *>(param->crtc_id_ptr);
dest[i] = resp.drm_crtc_ids(i);
}
param->count_crtcs = resp.drm_crtc_ids_size();
for (size_t i = 0; i < resp.drm_connector_ids_size(); i++) {
if (i >= param->count_connectors)
break;
auto dest = reinterpret_cast<uint32_t *>(param->connector_id_ptr);
dest[i] = resp.drm_connector_ids(i);
}
param->count_connectors = resp.drm_connector_ids_size();
for (size_t i = 0; i < resp.drm_encoder_ids_size(); i++) {
if (i >= param->count_encoders)
continue;
auto dest = reinterpret_cast<uint32_t *>(param->encoder_id_ptr);
dest[i] = resp.drm_encoder_ids(i);
}
param->count_encoders = resp.drm_encoder_ids_size();
param->min_width = resp.drm_min_width();
param->max_width = resp.drm_max_width();
param->min_height = resp.drm_min_height();
param->max_height = resp.drm_max_height();
*result = resp.result();
return 0;
}
case DRM_IOCTL_MODE_GETCONNECTOR: {
auto param = reinterpret_cast<drm_mode_get_connector *>(arg);
managarm::fs::GenericIoctlRequest<MemoryAllocator> req(getSysdepsAllocator());
req.set_command(request);
req.set_drm_connector_id(param->connector_id);
req.set_drm_max_modes(param->count_modes);
auto [offer, send_ioctl_req, send_req, recv_resp, recv_list] = exchangeMsgsSync(
handle,
helix_ng::offer(
helix_ng::sendBragiHeadOnly(ioctl_req, getSysdepsAllocator()),
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::recvInline(),
helix_ng::recvBuffer(
reinterpret_cast<void *>(param->modes_ptr),
param->count_modes * sizeof(drm_mode_modeinfo)
)
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_ioctl_req.error());
HEL_CHECK(send_req.error());
if (recv_resp.error() == kHelErrDismissed)
return EINVAL;
HEL_CHECK(recv_resp.error());
HEL_CHECK(recv_list.error());
managarm::fs::GenericIoctlReply<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
if (resp.error() != managarm::fs::Errors::SUCCESS)
return resp.error() | toErrno;
for (size_t i = 0; i < resp.drm_encoders_size(); i++) {
if (i >= param->count_encoders)
continue;
auto dest = reinterpret_cast<uint32_t *>(param->encoders_ptr);
dest[i] = resp.drm_encoders(i);
}
param->encoder_id = resp.drm_encoder_id();
param->connector_type = resp.drm_connector_type();
param->connector_type_id = resp.drm_connector_type_id();
param->connection = resp.drm_connection();
param->mm_width = resp.drm_mm_width();
param->mm_height = resp.drm_mm_height();
param->subpixel = resp.drm_subpixel();
param->pad = 0;
param->count_encoders = resp.drm_encoders_size();
param->count_modes = resp.drm_num_modes();
if (param->props_ptr) {
auto id_ptr = reinterpret_cast<uint32_t *>(param->props_ptr);
auto val_ptr = reinterpret_cast<uint64_t *>(param->prop_values_ptr);
for (size_t i = 0;
i < frg::min(
static_cast<size_t>(param->count_props), resp.drm_obj_property_ids_size()
);
i++) {
id_ptr[i] = resp.drm_obj_property_ids(i);
val_ptr[i] = resp.drm_obj_property_values(i);
}
}
param->count_props = resp.drm_obj_property_ids_size();
*result = resp.result();
return 0;
}
case DRM_IOCTL_MODE_GETPROPERTY: {
auto param = reinterpret_cast<drm_mode_get_property *>(arg);
managarm::fs::GenericIoctlRequest<MemoryAllocator> req(getSysdepsAllocator());
req.set_command(request);
req.set_drm_property_id(param->prop_id);
auto [offer, send_ioctl_req, send_req, recv_resp] = exchangeMsgsSync(
handle,
helix_ng::offer(
helix_ng::sendBragiHeadOnly(ioctl_req, getSysdepsAllocator()),
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_ioctl_req.error());
HEL_CHECK(send_req.error());
HEL_CHECK(recv_resp.error());
managarm::fs::GenericIoctlReply<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
if (resp.error() != managarm::fs::Errors::SUCCESS) {
mlibc::infoLogger() << "\e[31mmlibc: DRM_IOCTL_MODE_GETPROPERTY(" << param->prop_id
<< ") error " << (int)resp.error() << "\e[39m" << frg::endlog;
*result = 0;
return EINVAL;
}
memcpy(param->name, resp.drm_property_name().data(), resp.drm_property_name().size());
param->count_values = resp.drm_property_vals_size();
param->flags = resp.drm_property_flags();
for (size_t i = 0;
i < param->count_values && i < resp.drm_property_vals_size() && param->values_ptr;
i++) {
auto dest = reinterpret_cast<uint64_t *>(param->values_ptr);
dest[i] = resp.drm_property_vals(i);
}
__ensure(resp.drm_enum_name_size() == resp.drm_enum_value_size());
for (size_t i = 0; i < param->count_enum_blobs && i < resp.drm_enum_name_size()
&& i < resp.drm_enum_value_size();
i++) {
auto dest = reinterpret_cast<drm_mode_property_enum *>(param->enum_blob_ptr);
dest[i].value = resp.drm_enum_value(i);
strncpy(dest[i].name, resp.drm_enum_name(i).data(), DRM_PROP_NAME_LEN);
}
param->count_enum_blobs = resp.drm_enum_name_size();
*result = 0;
return 0;
}
case DRM_IOCTL_MODE_SETPROPERTY: {
auto param = reinterpret_cast<drm_mode_connector_set_property *>(arg);
managarm::fs::GenericIoctlRequest<MemoryAllocator> req(getSysdepsAllocator());
req.set_command(request);
req.set_drm_property_id(param->prop_id);
req.set_drm_property_value(param->value);
req.set_drm_obj_id(param->connector_id);
auto [offer, send_ioctl_req, send_req, recv_resp] = exchangeMsgsSync(
handle,
helix_ng::offer(
helix_ng::sendBragiHeadOnly(ioctl_req, getSysdepsAllocator()),
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_ioctl_req.error());
HEL_CHECK(send_req.error());
HEL_CHECK(recv_resp.error());
managarm::fs::GenericIoctlReply<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
if (resp.error() != managarm::fs::Errors::SUCCESS) {
mlibc::infoLogger() << "\e[31mmlibc: DRM_IOCTL_MODE_SETPROPERTY(" << param->prop_id
<< ") error " << (int)resp.error() << "\e[39m" << frg::endlog;
*result = 0;
return EINVAL;
}
*result = resp.result();
return 0;
}
case DRM_IOCTL_MODE_GETPROPBLOB: {
auto param = reinterpret_cast<drm_mode_get_blob *>(arg);
managarm::fs::GenericIoctlRequest<MemoryAllocator> req(getSysdepsAllocator());
req.set_command(request);
req.set_drm_blob_id(param->blob_id);
req.set_drm_blob_size(param->length);
auto [offer, send_ioctl_req, send_req, recv_resp] = exchangeMsgsSync(
handle,
helix_ng::offer(
helix_ng::want_lane,
helix_ng::sendBragiHeadOnly(ioctl_req, getSysdepsAllocator()),
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
auto conversation = offer.descriptor();
HEL_CHECK(send_ioctl_req.error());
HEL_CHECK(send_req.error());
HEL_CHECK(recv_resp.error());
managarm::fs::GenericIoctlReply<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
uint8_t *dest = reinterpret_cast<uint8_t *>(param->data);
auto [recv_data] = exchangeMsgsSync(
conversation.getHandle(),
helix_ng::recvBuffer(dest, std::min(param->length, resp.drm_property_blob_size()))
);
HEL_CHECK(recv_data.error());
if (resp.error() != managarm::fs::Errors::SUCCESS) {
mlibc::infoLogger() << "\e[31mmlibc: DRM_IOCTL_MODE_GETPROPBLOB(" << param->blob_id
<< ") error " << (int)resp.error() << "\e[39m" << frg::endlog;
*result = 0;
return EINVAL;
}
param->length = resp.drm_property_blob_size();
*result = 0;
return 0;
}
case DRM_IOCTL_MODE_GETPLANE: {
auto param = reinterpret_cast<drm_mode_get_plane *>(arg);
managarm::fs::GenericIoctlRequest<MemoryAllocator> req(getSysdepsAllocator());
req.set_command(request);
req.set_drm_plane_id(param->plane_id);
req.set_drm_format_types(param->count_format_types);
auto [offer, send_ioctl_req, send_req, recv_resp] = exchangeMsgsSync(
handle,
helix_ng::offer(
helix_ng::want_lane,
helix_ng::sendBragiHeadOnly(ioctl_req, getSysdepsAllocator()),
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
auto conversation = offer.descriptor();
HEL_CHECK(send_ioctl_req.error());
HEL_CHECK(send_req.error());
HEL_CHECK(recv_resp.error());
managarm::fs::GenericIoctlReply<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
if (resp.error() != managarm::fs::Errors::SUCCESS)
return resp.error() | toErrno;
param->crtc_id = resp.drm_crtc_id();
param->fb_id = resp.drm_fb_id();
param->possible_crtcs = resp.drm_possible_crtcs();
param->gamma_size = resp.drm_gamma_size();
auto dest = reinterpret_cast<uint32_t *>(param->format_type_ptr);
auto [recv_formats] = exchangeMsgsSync(
conversation.getHandle(),
helix_ng::recvBuffer(
dest,
std::min(resp.drm_format_types(), param->count_format_types) * sizeof(uint32_t)
)
);
HEL_CHECK(recv_formats.error());
param->count_format_types = resp.drm_format_types();
*result = resp.result();
return 0;
}
case DRM_IOCTL_MODE_GETPLANERESOURCES: {
auto param = reinterpret_cast<drm_mode_get_plane_res *>(arg);
managarm::fs::GenericIoctlRequest<MemoryAllocator> req(getSysdepsAllocator());
req.set_command(request);
frg::string<MemoryAllocator> ser(getSysdepsAllocator());
req.SerializeToString(&ser);
auto [offer, send_ioctl_req, send_req, recv_resp] = exchangeMsgsSync(
handle,
helix_ng::offer(
helix_ng::sendBragiHeadOnly(ioctl_req, getSysdepsAllocator()),
helix_ng::sendBuffer(ser.data(), ser.size()),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_ioctl_req.error());
HEL_CHECK(send_req.error());
HEL_CHECK(recv_resp.error());
managarm::fs::GenericIoctlReply<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
if (resp.error() != managarm::fs::Errors::SUCCESS)
return resp.error() | toErrno;
// FIXME: send this via a helix_ng buffer
for (size_t i = 0; i < resp.drm_plane_res_size(); i++) {
if (i >= param->count_planes) {
continue;
}
auto dest = reinterpret_cast<uint32_t *>(param->plane_id_ptr);
dest[i] = resp.drm_plane_res(i);
}
param->count_planes = resp.drm_plane_res_size();
*result = resp.result();
return 0;
}
case DRM_IOCTL_MODE_GETENCODER: {
auto param = reinterpret_cast<drm_mode_get_encoder *>(arg);
managarm::fs::GenericIoctlRequest<MemoryAllocator> req(getSysdepsAllocator());
req.set_command(request);
req.set_drm_encoder_id(param->encoder_id);
auto [offer, send_ioctl_req, send_req, recv_resp] = exchangeMsgsSync(
handle,
helix_ng::offer(
helix_ng::sendBragiHeadOnly(ioctl_req, getSysdepsAllocator()),
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_ioctl_req.error());
HEL_CHECK(send_req.error());
HEL_CHECK(recv_resp.error());
managarm::fs::GenericIoctlReply<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
if (resp.error() != managarm::fs::Errors::SUCCESS)
return resp.error() | toErrno;
param->encoder_type = resp.drm_encoder_type();
param->crtc_id = resp.drm_crtc_id();
param->possible_crtcs = resp.drm_possible_crtcs();
param->possible_clones = resp.drm_possible_clones();
*result = resp.result();
return 0;
}
case DRM_IOCTL_MODE_CREATE_DUMB: {
auto param = reinterpret_cast<drm_mode_create_dumb *>(arg);
managarm::fs::GenericIoctlRequest<MemoryAllocator> req(getSysdepsAllocator());
req.set_command(request);
req.set_drm_width(param->width);
req.set_drm_height(param->height);
req.set_drm_bpp(param->bpp);
req.set_drm_flags(param->flags);
auto [offer, send_ioctl_req, send_req, recv_resp] = exchangeMsgsSync(
handle,
helix_ng::offer(
helix_ng::sendBragiHeadOnly(ioctl_req, getSysdepsAllocator()),
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_ioctl_req.error());
HEL_CHECK(send_req.error());
HEL_CHECK(recv_resp.error());
managarm::fs::GenericIoctlReply<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
__ensure(resp.error() == managarm::fs::Errors::SUCCESS);
param->handle = resp.drm_handle();
param->pitch = resp.drm_pitch();
param->size = resp.drm_size();
*result = resp.result();
return 0;
}
case DRM_IOCTL_MODE_ADDFB: {
auto param = reinterpret_cast<drm_mode_fb_cmd *>(arg);
managarm::fs::GenericIoctlRequest<MemoryAllocator> req(getSysdepsAllocator());
req.set_command(request);
req.set_drm_width(param->width);
req.set_drm_height(param->height);
req.set_drm_pitch(param->pitch);
req.set_drm_bpp(param->bpp);
req.set_drm_depth(param->depth);
req.set_drm_handle(param->handle);
auto [offer, send_ioctl_req, send_req, recv_resp] = exchangeMsgsSync(
handle,
helix_ng::offer(
helix_ng::sendBragiHeadOnly(ioctl_req, getSysdepsAllocator()),
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_ioctl_req.error());
HEL_CHECK(send_req.error());
HEL_CHECK(recv_resp.error());
managarm::fs::GenericIoctlReply<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
__ensure(resp.error() == managarm::fs::Errors::SUCCESS);
param->fb_id = resp.drm_fb_id();
*result = resp.result();
return 0;
}
case DRM_IOCTL_MODE_GETFB2: {
auto param = reinterpret_cast<drm_mode_fb_cmd2 *>(arg);
managarm::fs::GenericIoctlRequest<MemoryAllocator> req(getSysdepsAllocator());
req.set_command(DRM_IOCTL_MODE_GETFB2);
req.set_drm_fb_id(param->fb_id);
auto [offer, send_ioctl_req, send_req, recv_resp] = exchangeMsgsSync(
handle,
helix_ng::offer(
helix_ng::sendBragiHeadOnly(ioctl_req, getSysdepsAllocator()),
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_ioctl_req.error());
HEL_CHECK(send_req.error());
HEL_CHECK(recv_resp.error());
managarm::fs::GenericIoctlReply<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
__ensure(resp.error() == managarm::fs::Errors::SUCCESS);
memset(param->handles, 0, sizeof(param->handles));
memset(param->pitches, 0, sizeof(param->pitches));
memset(param->offsets, 0, sizeof(param->offsets));
param->width = resp.drm_width();
param->height = resp.drm_height();
param->pixel_format = resp.pixel_format();
param->modifier[0] = resp.modifier();
memcpy(
param->handles,
resp.drm_handles().data(),
sizeof(uint32_t) * resp.drm_handles_size()
);
memcpy(
param->pitches,
resp.drm_pitches().data(),
sizeof(uint32_t) * resp.drm_pitches_size()
);
memcpy(
param->offsets,
resp.drm_offsets().data(),
sizeof(uint32_t) * resp.drm_offsets_size()
);
*result = resp.result();
return 0;
}
case DRM_IOCTL_MODE_ADDFB2: {
auto param = reinterpret_cast<drm_mode_fb_cmd2 *>(arg);
__ensure(!param->flags || param->flags == DRM_MODE_FB_MODIFIERS);
__ensure(!param->offsets[0]);
managarm::fs::GenericIoctlRequest<MemoryAllocator> req(getSysdepsAllocator());
req.set_command(DRM_IOCTL_MODE_ADDFB2);
req.set_drm_width(param->width);
req.set_drm_height(param->height);
req.set_drm_pitch(param->pitches[0]);
req.set_drm_fourcc(param->pixel_format);
req.set_drm_handle(param->handles[0]);
if (param->flags & DRM_MODE_FB_MODIFIERS)
req.set_drm_modifier(param->modifier[0]);
auto [offer, send_ioctl_req, send_req, recv_resp] = exchangeMsgsSync(
handle,
helix_ng::offer(
helix_ng::sendBragiHeadOnly(ioctl_req, getSysdepsAllocator()),
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_ioctl_req.error());
HEL_CHECK(send_req.error());
HEL_CHECK(recv_resp.error());
managarm::fs::GenericIoctlReply<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
__ensure(resp.error() == managarm::fs::Errors::SUCCESS);
param->fb_id = resp.drm_fb_id();
*result = resp.result();
return 0;
}
case DRM_IOCTL_MODE_RMFB: {
auto param = reinterpret_cast<int *>(arg);
managarm::fs::GenericIoctlRequest<MemoryAllocator> req(getSysdepsAllocator());
req.set_command(request);
req.set_drm_fb_id(*param);
auto [offer, send_ioctl_req, send_req, recv_resp] = exchangeMsgsSync(
handle,
helix_ng::offer(
helix_ng::sendBragiHeadOnly(ioctl_req, getSysdepsAllocator()),
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_ioctl_req.error());
HEL_CHECK(send_req.error());
HEL_CHECK(recv_resp.error());
managarm::fs::GenericIoctlReply<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
__ensure(resp.error() == managarm::fs::Errors::SUCCESS);
*result = resp.result();
return 0;
}
case DRM_IOCTL_MODE_MAP_DUMB: {
auto param = reinterpret_cast<drm_mode_map_dumb *>(arg);
managarm::fs::GenericIoctlRequest<MemoryAllocator> req(getSysdepsAllocator());
req.set_command(request);
req.set_drm_handle(param->handle);
auto [offer, send_ioctl_req, send_req, recv_resp] = exchangeMsgsSync(
handle,
helix_ng::offer(
helix_ng::sendBragiHeadOnly(ioctl_req, getSysdepsAllocator()),
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_ioctl_req.error());
HEL_CHECK(send_req.error());
HEL_CHECK(recv_resp.error());
managarm::fs::GenericIoctlReply<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
__ensure(resp.error() == managarm::fs::Errors::SUCCESS);
param->offset = resp.drm_offset();
*result = resp.result();
return 0;
}
case DRM_IOCTL_MODE_GETCRTC: {
auto param = reinterpret_cast<drm_mode_crtc *>(arg);
managarm::fs::GenericIoctlRequest<MemoryAllocator> req(getSysdepsAllocator());
req.set_command(request);
req.set_drm_crtc_id(param->crtc_id);
auto [offer, send_ioctl_req, send_req, recv_resp, recv_data] = exchangeMsgsSync(
handle,
helix_ng::offer(
helix_ng::sendBragiHeadOnly(ioctl_req, getSysdepsAllocator()),
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::recvInline(),
helix_ng::recvBuffer(&param->mode, sizeof(drm_mode_modeinfo))
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_ioctl_req.error());
HEL_CHECK(send_req.error());
HEL_CHECK(recv_resp.error());
HEL_CHECK(recv_data.error());
managarm::fs::GenericIoctlReply<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
if (resp.error() != managarm::fs::Errors::SUCCESS)
return resp.error() | toErrno;
param->fb_id = resp.drm_fb_id();
param->x = resp.drm_x();
param->y = resp.drm_y();
param->gamma_size = resp.drm_gamma_size();
param->mode_valid = resp.drm_mode_valid();
*result = resp.result();
return 0;
}
case DRM_IOCTL_MODE_SETCRTC: {
auto param = reinterpret_cast<drm_mode_crtc *>(arg);
managarm::fs::GenericIoctlRequest<MemoryAllocator> req(getSysdepsAllocator());
req.set_command(request);
for (size_t i = 0; i < param->count_connectors; i++) {
auto dest = reinterpret_cast<uint32_t *>(param->set_connectors_ptr);
req.add_drm_connector_ids(dest[i]);
}
req.set_drm_x(param->x);
req.set_drm_y(param->y);
req.set_drm_crtc_id(param->crtc_id);
req.set_drm_fb_id(param->fb_id);
req.set_drm_mode_valid(param->mode_valid);
auto [offer, send_ioctl_req, send_req, send_mode, recv_resp] = exchangeMsgsSync(
handle,
helix_ng::offer(
helix_ng::sendBragiHeadOnly(ioctl_req, getSysdepsAllocator()),
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::sendBuffer(&param->mode, sizeof(drm_mode_modeinfo)),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_ioctl_req.error());
HEL_CHECK(send_req.error());
HEL_CHECK(send_mode.error());
HEL_CHECK(recv_resp.error());
managarm::fs::GenericIoctlReply<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
__ensure(resp.error() == managarm::fs::Errors::SUCCESS);
*result = resp.result();
return 0;
}
case DRM_IOCTL_MODE_OBJ_GETPROPERTIES: {
auto param = reinterpret_cast<drm_mode_obj_get_properties *>(arg);
managarm::fs::GenericIoctlRequest<MemoryAllocator> req(getSysdepsAllocator());
req.set_command(request);
req.set_drm_count_props(param->count_props);
req.set_drm_obj_id(param->obj_id);
req.set_drm_obj_type(param->obj_type);
auto [offer, send_ioctl_req, send_req, recv_resp] = exchangeMsgsSync(
handle,
helix_ng::offer(
helix_ng::sendBragiHeadOnly(ioctl_req, getSysdepsAllocator()),
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_ioctl_req.error());
HEL_CHECK(send_req.error());
HEL_CHECK(recv_resp.error());
managarm::fs::GenericIoctlReply<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
__ensure(resp.error() == managarm::fs::Errors::SUCCESS);
auto props = reinterpret_cast<uint32_t *>(param->props_ptr);
auto prop_vals = reinterpret_cast<uint64_t *>(param->prop_values_ptr);
for (size_t i = 0; i < resp.drm_obj_property_ids_size(); i++) {
if (i >= param->count_props) {
break;
}
props[i] = resp.drm_obj_property_ids(i);
prop_vals[i] = resp.drm_obj_property_values(i);
}
param->count_props = resp.drm_obj_property_ids_size();
*result = resp.result();
return 0;
}
case DRM_IOCTL_MODE_PAGE_FLIP: {
auto param = reinterpret_cast<drm_mode_crtc_page_flip *>(arg);
managarm::fs::GenericIoctlRequest<MemoryAllocator> req(getSysdepsAllocator());
req.set_command(request);
__ensure(!(param->flags & ~DRM_MODE_PAGE_FLIP_EVENT));
req.set_drm_crtc_id(param->crtc_id);
req.set_drm_fb_id(param->fb_id);
req.set_drm_cookie(param->user_data);
req.set_drm_flags(param->flags);
auto [offer, send_ioctl_req, send_req, recv_resp] = exchangeMsgsSync(
handle,
helix_ng::offer(
helix_ng::sendBragiHeadOnly(ioctl_req, getSysdepsAllocator()),
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_ioctl_req.error());
HEL_CHECK(send_req.error());
HEL_CHECK(recv_resp.error());
managarm::fs::GenericIoctlReply<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
__ensure(resp.error() == managarm::fs::Errors::SUCCESS);
*result = resp.result();
return 0;
}
case DRM_IOCTL_MODE_DIRTYFB: {
auto param = reinterpret_cast<drm_mode_fb_dirty_cmd *>(arg);
managarm::fs::GenericIoctlRequest<MemoryAllocator> req(getSysdepsAllocator());
req.set_command(request);
req.set_drm_fb_id(param->fb_id);
req.set_drm_flags(param->flags);
req.set_drm_color(param->color);
for (size_t i = 0; i < param->num_clips; i++) {
auto dest = reinterpret_cast<drm_clip_rect *>(param->clips_ptr);
managarm::fs::Rect<MemoryAllocator> clip(getSysdepsAllocator());
clip.set_x1(dest->x1);
clip.set_y1(dest->y1);
clip.set_x2(dest->x2);
clip.set_y2(dest->y2);
req.add_drm_clips(std::move(clip));
}
auto [offer, send_ioctl_req, send_req, recv_resp] = exchangeMsgsSync(
handle,
helix_ng::offer(
helix_ng::sendBragiHeadOnly(ioctl_req, getSysdepsAllocator()),
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_ioctl_req.error());
HEL_CHECK(send_req.error());
HEL_CHECK(recv_resp.error());
managarm::fs::GenericIoctlReply<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
if (resp.error() == managarm::fs::Errors::ILLEGAL_ARGUMENT) {
return EINVAL;
} else {
__ensure(resp.error() == managarm::fs::Errors::SUCCESS);
*result = resp.result();
return 0;
}
}
case DRM_IOCTL_MODE_CURSOR: {
auto param = reinterpret_cast<drm_mode_cursor *>(arg);
managarm::fs::GenericIoctlRequest<MemoryAllocator> req(getSysdepsAllocator());
req.set_command(request);
req.set_drm_flags(param->flags);
req.set_drm_crtc_id(param->crtc_id);
if (param->flags == DRM_MODE_CURSOR_MOVE) {
req.set_drm_x(param->x);
req.set_drm_y(param->y);
} else if (param->flags == DRM_MODE_CURSOR_BO) {
req.set_drm_width(param->width);
req.set_drm_height(param->height);
req.set_drm_handle(param->handle);
} else {
mlibc::infoLogger()
<< "\e[35mmlibc: invalid flags in DRM_IOCTL_MODE_CURSOR\e[39m" << frg::endlog;
return EINVAL;
}
auto [offer, send_ioctl_req, send_req, recv_resp] = exchangeMsgsSync(
handle,
helix_ng::offer(
helix_ng::sendBragiHeadOnly(ioctl_req, getSysdepsAllocator()),
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_ioctl_req.error());
HEL_CHECK(send_req.error());
HEL_CHECK(recv_resp.error());
managarm::fs::GenericIoctlReply<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
if (resp.error() == managarm::fs::Errors::NO_BACKING_DEVICE) {
return ENXIO;
} else if (resp.error() == managarm::fs::Errors::ILLEGAL_ARGUMENT) {
return EINVAL;
} else {
*result = resp.result();
return 0;
}
}
case DRM_IOCTL_MODE_CURSOR2: {
auto param = reinterpret_cast<drm_mode_cursor2 *>(arg);
managarm::fs::GenericIoctlRequest<MemoryAllocator> req(getSysdepsAllocator());
req.set_command(request);
req.set_drm_flags(param->flags);
req.set_drm_crtc_id(param->crtc_id);
req.set_drm_x(param->x);
req.set_drm_y(param->y);
req.set_drm_width(param->width);
req.set_drm_height(param->height);
req.set_drm_handle(param->handle);
auto [offer, send_ioctl_req, send_req, recv_resp] = exchangeMsgsSync(
handle,
helix_ng::offer(
helix_ng::sendBragiHeadOnly(ioctl_req, getSysdepsAllocator()),
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_ioctl_req.error());
HEL_CHECK(send_req.error());
HEL_CHECK(recv_resp.error());
managarm::fs::GenericIoctlReply<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
if (resp.error() == managarm::fs::Errors::NO_BACKING_DEVICE) {
return ENXIO;
} else if (resp.error() == managarm::fs::Errors::ILLEGAL_ARGUMENT) {
return EINVAL;
} else {
*result = resp.result();
return 0;
}
}
case DRM_IOCTL_MODE_DESTROY_DUMB: {
auto param = reinterpret_cast<drm_mode_destroy_dumb *>(arg);
managarm::fs::GenericIoctlRequest<MemoryAllocator> req(getSysdepsAllocator());
req.set_command(request);
req.set_drm_handle(param->handle);
auto [offer, send_ioctl_req, send_req, recv_resp] = exchangeMsgsSync(
handle,
helix_ng::offer(
helix_ng::sendBragiHeadOnly(ioctl_req, getSysdepsAllocator()),
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_ioctl_req.error());
HEL_CHECK(send_req.error());
HEL_CHECK(recv_resp.error());
managarm::fs::GenericIoctlReply<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
*result = resp.result();
return 0;
}
case DRM_IOCTL_MODE_CREATEPROPBLOB: {
auto param = reinterpret_cast<drm_mode_create_blob *>(arg);
managarm::fs::GenericIoctlRequest<MemoryAllocator> req(getSysdepsAllocator());
req.set_command(request);
req.set_drm_blob_size(param->length);
auto [offer, send_ioctl_req, send_req, blob_req, recv_resp] = exchangeMsgsSync(
handle,
helix_ng::offer(
helix_ng::sendBragiHeadOnly(ioctl_req, getSysdepsAllocator()),
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::sendBuffer(reinterpret_cast<void *>(param->data), param->length),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_ioctl_req.error());
HEL_CHECK(send_req.error());
HEL_CHECK(blob_req.error());
HEL_CHECK(recv_resp.error());
managarm::fs::GenericIoctlReply<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
__ensure(resp.error() == managarm::fs::Errors::SUCCESS);
param->blob_id = resp.drm_blob_id();
*result = resp.result();
return 0;
}
case DRM_IOCTL_MODE_DESTROYPROPBLOB: {
auto param = reinterpret_cast<drm_mode_destroy_blob *>(arg);
managarm::fs::GenericIoctlRequest<MemoryAllocator> req(getSysdepsAllocator());
req.set_command(request);
req.set_drm_blob_id(param->blob_id);
auto [offer, send_ioctl_req, send_req, recv_resp] = exchangeMsgsSync(
handle,
helix_ng::offer(
helix_ng::sendBragiHeadOnly(ioctl_req, getSysdepsAllocator()),
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_ioctl_req.error());
HEL_CHECK(send_req.error());
HEL_CHECK(recv_resp.error());
managarm::fs::GenericIoctlReply<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
__ensure(resp.error() == managarm::fs::Errors::SUCCESS);
*result = resp.result();
return 0;
}
case DRM_IOCTL_MODE_ATOMIC: {
auto param = reinterpret_cast<drm_mode_atomic *>(arg);
managarm::fs::GenericIoctlRequest<MemoryAllocator> req(getSysdepsAllocator());
req.set_command(request);
req.set_drm_flags(param->flags);
req.set_drm_cookie(param->user_data);
size_t prop_count = 0;
auto objs_ptr = reinterpret_cast<uint32_t *>(param->objs_ptr);
auto count_props_ptr = reinterpret_cast<uint32_t *>(param->count_props_ptr);
auto props_ptr = reinterpret_cast<uint32_t *>(param->props_ptr);
auto prop_values_ptr = reinterpret_cast<uint64_t *>(param->prop_values_ptr);
for (size_t i = 0; i < param->count_objs; i++) {
/* list of modeobjs and their property count */
req.add_drm_obj_ids(objs_ptr[i]);
req.add_drm_prop_counts(count_props_ptr[i]);
prop_count += count_props_ptr[i];
}
for (size_t i = 0; i < prop_count; i++) {
/* array of property IDs */
req.add_drm_props(props_ptr[i]);
/* array of property values */
req.add_drm_prop_values(prop_values_ptr[i]);
}
auto [offer, send_ioctl_req, send_req, recv_resp] = exchangeMsgsSync(
handle,
helix_ng::offer(
helix_ng::sendBragiHeadOnly(ioctl_req, getSysdepsAllocator()),
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_ioctl_req.error());
HEL_CHECK(send_req.error());
HEL_CHECK(recv_resp.error());
managarm::fs::GenericIoctlReply<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
*result = resp.result();
return 0;
}
case DRM_IOCTL_MODE_LIST_LESSEES: {
mlibc::infoLogger() << "\e[35mmlibc: DRM_IOCTL_MODE_LIST_LESSEES"
" is not implemented correctly\e[39m"
<< frg::endlog;
return EINVAL;
}
case DRM_IOCTL_MODE_SETGAMMA: {
mlibc::infoLogger() << "\e[35mmlibc: DRM_IOCTL_MODE_SETGAMMA"
" is not implemented correctly\e[39m"
<< frg::endlog;
return 0;
}
case DRM_IOCTL_MODE_CREATE_LEASE: {
auto param = reinterpret_cast<drm_mode_create_lease *>(arg);
mlibc::infoLogger() << "\e[35mmlibc: DRM_IOCTL_MODE_CREATE_LEASE"
" is a noop\e[39m"
<< frg::endlog;
param->lessee_id = 1;
param->fd = fd;
*result = 0;
return 0;
}
case DRM_IOCTL_GEM_CLOSE: {
mlibc::infoLogger() << "\e[35mmlibc: DRM_IOCTL_GEM_CLOSE"
" is a noop\e[39m"
<< frg::endlog;
*result = 0;
return 0;
}
case DRM_IOCTL_WAIT_VBLANK: {
mlibc::infoLogger() << "\e[35mmlibc: DRM_IOCTL_WAIT_VBLANK"
" is a noop\e[39m"
<< frg::endlog;
return EOPNOTSUPP;
}
case DRM_IOCTL_PRIME_HANDLE_TO_FD: {
auto param = reinterpret_cast<drm_prime_handle *>(arg);
managarm::fs::GenericIoctlRequest<MemoryAllocator> req(getSysdepsAllocator());
req.set_command(request);
req.set_drm_prime_handle(param->handle);
req.set_drm_flags(param->flags);
auto [offer, send_ioctl_req, send_req, send_creds, recv_resp] = exchangeMsgsSync(
handle,
helix_ng::offer(
helix_ng::sendBragiHeadOnly(ioctl_req, getSysdepsAllocator()),
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::imbueCredentials(),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_ioctl_req.error());
HEL_CHECK(send_req.error());
HEL_CHECK(send_creds.error());
HEL_CHECK(recv_resp.error());
managarm::fs::GenericIoctlReply<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
__ensure(resp.error() == managarm::fs::Errors::SUCCESS);
param->fd = resp.drm_prime_fd();
*result = resp.result();
return 0;
}
case DRM_IOCTL_PRIME_FD_TO_HANDLE: {
auto param = reinterpret_cast<drm_prime_handle *>(arg);
managarm::fs::GenericIoctlRequest<MemoryAllocator> req(getSysdepsAllocator());
req.set_command(request);
req.set_drm_flags(param->flags);
auto [offer, send_ioctl_req, send_req, send_creds, recv_resp] = exchangeMsgsSync(
handle,
helix_ng::offer(
helix_ng::sendBragiHeadOnly(ioctl_req, getSysdepsAllocator()),
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::imbueCredentials(getHandleForFd(param->fd)),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_ioctl_req.error());
HEL_CHECK(send_req.error());
HEL_CHECK(send_creds.error());
HEL_CHECK(recv_resp.error());
managarm::fs::GenericIoctlReply<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
if (resp.error() == managarm::fs::Errors::FILE_NOT_FOUND) {
return EBADF;
} else {
__ensure(resp.error() == managarm::fs::Errors::SUCCESS);
}
param->handle = resp.drm_prime_handle();
*result = resp.result();
return 0;
}
}
mlibc::infoLogger() << "mlibc: Unexpected DRM ioctl with"
<< ", number: 0x" << frg::hex_fmt(_IOC_NR(request))
<< " (raw request: " << frg::hex_fmt(request) << ")" << frg::endlog;
__ensure(!"Illegal ioctl request");
__builtin_unreachable();
}
} // namespace mlibc
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