#include <chrono>
#include <cstdio>
#include <vector>
#include <memory>
#include <algorithm>
#include <poll.h>
#include <xf86drm.h>
#include <xf86drmMode.h>
#include <gbm.h>
#include <kms++/kms++.h>
#include <kms++util/kms++util.h>
#include "cube-egl.h"
#include "cube-gles2.h"
using namespace kms;
using namespace std;
static int s_flip_pending;
static bool s_need_exit;
static bool s_support_planes;
class GbmDevice
{
public:
GbmDevice(Card& card)
{
m_dev = gbm_create_device(card.fd());
FAIL_IF(!m_dev, "failed to create gbm device");
}
~GbmDevice()
{
gbm_device_destroy(m_dev);
}
GbmDevice(const GbmDevice& other) = delete;
GbmDevice& operator=(const GbmDevice& other) = delete;
struct gbm_device* handle() const { return m_dev; }
private:
struct gbm_device* m_dev;
};
class GbmSurface
{
public:
GbmSurface(GbmDevice& gdev, int width, int height)
{
m_surface = gbm_surface_create(gdev.handle(), width, height,
GBM_FORMAT_XRGB8888,
GBM_BO_USE_SCANOUT | GBM_BO_USE_RENDERING);
FAIL_IF(!m_surface, "failed to create gbm surface");
}
~GbmSurface()
{
gbm_surface_destroy(m_surface);
}
GbmSurface(const GbmSurface& other) = delete;
GbmSurface& operator=(const GbmSurface& other) = delete;
bool has_free()
{
return gbm_surface_has_free_buffers(m_surface);
}
gbm_bo* lock_front_buffer()
{
return gbm_surface_lock_front_buffer(m_surface);
}
void release_buffer(gbm_bo *bo)
{
gbm_surface_release_buffer(m_surface, bo);
}
struct gbm_surface* handle() const { return m_surface; }
private:
struct gbm_surface* m_surface;
};
class GbmEglSurface
{
public:
GbmEglSurface(Card& card, GbmDevice& gdev, const EglState& egl, int width, int height)
: card(card), egl(egl), m_width(width), m_height(height),
bo_prev(0), bo_next(0)
{
gsurface = unique_ptr<GbmSurface>(new GbmSurface(gdev, width, height));
esurface = eglCreateWindowSurface(egl.display(), egl.config(), gsurface->handle(), NULL);
FAIL_IF(esurface == EGL_NO_SURFACE, "failed to create egl surface");
}
~GbmEglSurface()
{
if (bo_next)
gsurface->release_buffer(bo_next);
eglDestroySurface(egl.display(), esurface);
}
void make_current()
{
FAIL_IF(!gsurface->has_free(), "No free buffers");
eglMakeCurrent(egl.display(), esurface, esurface, egl.context());
}
void swap_buffers()
{
eglSwapBuffers(egl.display(), esurface);
}
static void drm_fb_destroy_callback(struct gbm_bo *bo, void *data)
{
auto fb = reinterpret_cast<Framebuffer*>(data);
delete fb;
}
static Framebuffer* drm_fb_get_from_bo(struct gbm_bo *bo, Card& card)
{
auto fb = reinterpret_cast<Framebuffer*>(gbm_bo_get_user_data(bo));
if (fb)
return fb;
uint32_t width = gbm_bo_get_width(bo);
uint32_t height = gbm_bo_get_height(bo);
uint32_t stride = gbm_bo_get_stride(bo);
uint32_t handle = gbm_bo_get_handle(bo).u32;
PixelFormat format = (PixelFormat)gbm_bo_get_format(bo);
vector<uint32_t> handles { handle };
vector<uint32_t> strides { stride };
vector<uint32_t> offsets { 0 };
fb = new ExtFramebuffer(card, width, height, format, handles, strides, offsets);
gbm_bo_set_user_data(bo, fb, drm_fb_destroy_callback);
return fb;
}
Framebuffer* lock_next()
{
bo_prev = bo_next;
bo_next = gsurface->lock_front_buffer();
FAIL_IF(!bo_next, "could not lock gbm buffer");
return drm_fb_get_from_bo(bo_next, card);
}
void free_prev()
{
if (bo_prev) {
gsurface->release_buffer(bo_prev);
bo_prev = 0;
}
}
uint32_t width() const { return m_width; }
uint32_t height() const { return m_height; }
private:
Card& card;
const EglState& egl;
unique_ptr<GbmSurface> gsurface;
EGLSurface esurface;
int m_width;
int m_height;
struct gbm_bo* bo_prev;
struct gbm_bo* bo_next;
};
class OutputHandler : private PageFlipHandlerBase
{
public:
OutputHandler(Card& card, GbmDevice& gdev, const EglState& egl, Connector* connector, Crtc* crtc, Videomode& mode, Plane* root_plane, Plane* plane, float rotation_mult)
: m_frame_num(0), m_connector(connector), m_crtc(crtc), m_root_plane(root_plane), m_plane(plane), m_mode(mode),
m_rotation_mult(rotation_mult)
{
m_surface1 = unique_ptr<GbmEglSurface>(new GbmEglSurface(card, gdev, egl, mode.hdisplay, mode.vdisplay));
m_scene1 = unique_ptr<GlScene>(new GlScene());
m_scene1->set_viewport(m_surface1->width(), m_surface1->height());
if (m_plane) {
m_surface2 = unique_ptr<GbmEglSurface>(new GbmEglSurface(card, gdev, egl, 400, 400));
m_scene2 = unique_ptr<GlScene>(new GlScene());
m_scene2->set_viewport(m_surface2->width(), m_surface2->height());
}
}
OutputHandler(const OutputHandler& other) = delete;
OutputHandler& operator=(const OutputHandler& other) = delete;
void setup()
{
int ret;
m_surface1->make_current();
m_surface1->swap_buffers();
Framebuffer* fb = m_surface1->lock_next();
Framebuffer* planefb = 0;
if (m_plane) {
m_surface2->make_current();
m_surface2->swap_buffers();
planefb = m_surface2->lock_next();
}
ret = m_crtc->set_mode(m_connector, *fb, m_mode);
FAIL_IF(ret, "failed to set mode");
if (m_plane) {
ret = m_crtc->set_plane(m_plane, *planefb,
0, 0, planefb->width(), planefb->height(),
0, 0, planefb->width(), planefb->height());
FAIL_IF(ret, "failed to set plane");
}
}
void start_flipping()
{
m_t1 = chrono::steady_clock::now();
queue_next();
}
private:
void handle_page_flip(uint32_t frame, double time)
{
++m_frame_num;
if (m_frame_num % 100 == 0) {
auto t2 = chrono::steady_clock::now();
chrono::duration<float> fsec = t2 - m_t1;
printf("fps: %f\n", 100.0 / fsec.count());
m_t1 = t2;
}
s_flip_pending--;
m_surface1->free_prev();
if (m_plane)
m_surface2->free_prev();
if (s_need_exit)
return;
queue_next();
}
void queue_next()
{
m_surface1->make_current();
m_scene1->draw(m_frame_num * m_rotation_mult);
m_surface1->swap_buffers();
Framebuffer* fb = m_surface1->lock_next();
Framebuffer* planefb = 0;
if (m_plane) {
m_surface2->make_current();
m_scene2->draw(m_frame_num * m_rotation_mult * 2);
m_surface2->swap_buffers();
planefb = m_surface2->lock_next();
}
int r;
AtomicReq req(m_crtc->card());
req.add(m_root_plane, "FB_ID", fb->id());
if (m_plane)
req.add(m_plane, "FB_ID", planefb->id());
r = req.test();
FAIL_IF(r, "atomic test failed");
r = req.commit(this);
FAIL_IF(r, "atomic commit failed");
s_flip_pending++;
}
int m_frame_num;
chrono::steady_clock::time_point m_t1;
Connector* m_connector;
Crtc* m_crtc;
Plane* m_root_plane;
Plane* m_plane;
Videomode m_mode;
unique_ptr<GbmEglSurface> m_surface1;
unique_ptr<GbmEglSurface> m_surface2;
unique_ptr<GlScene> m_scene1;
unique_ptr<GlScene> m_scene2;
float m_rotation_mult;
};
void main_gbm()
{
Card card;
FAIL_IF(!card.has_atomic(), "No atomic modesetting");
GbmDevice gdev(card);
EglState egl(gdev.handle());
ResourceManager resman(card);
vector<unique_ptr<OutputHandler>> outputs;
float rot_mult = 1;
for (Connector* conn : card.get_connectors()) {
if (!conn->connected())
continue;
resman.reserve_connector(conn);
Crtc* crtc = resman.reserve_crtc(conn);
auto mode = conn->get_default_mode();
Plane* root_plane = resman.reserve_generic_plane(crtc);
FAIL_IF(!root_plane, "Root plane not available");
Plane* plane = nullptr;
if (s_support_planes)
plane = resman.reserve_generic_plane(crtc);
auto out = new OutputHandler(card, gdev, egl, conn, crtc, mode, root_plane, plane, rot_mult);
outputs.emplace_back(out);
rot_mult *= 1.33;
}
for (auto& out : outputs)
out->setup();
for (auto& out : outputs)
out->start_flipping();
struct pollfd fds[2] = { };
fds[0].fd = 0;
fds[0].events = POLLIN;
fds[1].fd = card.fd();
fds[1].events = POLLIN;
while (!s_need_exit || s_flip_pending) {
int r = poll(fds, ARRAY_SIZE(fds), -1);
FAIL_IF(r < 0, "poll error %d", r);
if (fds[0].revents)
s_need_exit = true;
if (fds[1].revents)
card.call_page_flip_handlers();
}
}