/* RetroArch - A frontend for libretro. * Copyright (C) 2013-2015 - Tobias Jakobi * * RetroArch 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 Found- * ation, either version 3 of the License, or (at your option) any later version. * * RetroArch 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 RetroArch. * If not, see . */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "../../general.h" #include "../../retroarch.h" #include "../../runloop.h" #include "../video_viewport.h" #include "../video_monitor.h" #include "../font_renderer_driver.h" /* TODO: Honor these properties: vsync, menu rotation, menu alpha, aspect ratio change */ /* Set to '1' to enable debug logging code. */ #define EXYNOS_GFX_DEBUG_LOG 0 /* Set to '1' to enable debug perf code. */ #define EXYNOS_GFX_DEBUG_PERF 0 extern void *memcpy_neon(void *dst, const void *src, size_t n); /* We use two GEM buffers (main and aux) to handle 'data' from the frontend. */ enum exynos_buffer_type { EXYNOS_BUFFER_MAIN = 0, EXYNOS_BUFFER_AUX, EXYNOS_BUFFER_COUNT }; /* We have to handle three types of 'data' from the frontend, each abstracted by a * * G2D image object. The image objects are then backed by some storage buffer. * * (1) the core framebuffer (backed by main buffer) * * (2) the menu buffer (backed by aux buffer) * * (3) the font rendering buffer (backed by aux buffer) */ enum exynos_image_type { EXYNOS_IMAGE_FRAME = 0, EXYNOS_IMAGE_FRONT, EXYNOS_IMAGE_MENU, EXYNOS_IMAGE_COUNT }; static const struct exynos_config_default { unsigned width, height; enum exynos_buffer_type buf_type; unsigned g2d_color_mode; unsigned bpp; /* bytes per pixel */ } defaults[EXYNOS_IMAGE_COUNT] = { {1024, 640, EXYNOS_BUFFER_MAIN, G2D_COLOR_FMT_RGB565 | G2D_ORDER_AXRGB, 2}, /* frame */ {720, 368, EXYNOS_BUFFER_AUX, G2D_COLOR_FMT_ARGB4444 | G2D_ORDER_AXRGB, 2}, /* font */ {400, 240, EXYNOS_BUFFER_AUX, G2D_COLOR_FMT_ARGB4444 | G2D_ORDER_RGBAX, 2} /* menu */ }; struct exynos_data; #if (EXYNOS_GFX_DEBUG_PERF == 1) struct exynos_perf { unsigned memcpy_calls; unsigned g2d_calls; unsigned long long memcpy_time; unsigned long long g2d_time; struct timespec tspec; }; #endif struct exynos_page { struct exynos_bo *bo; uint32_t buf_id; struct exynos_data *base; bool used; /* Set if page is currently used. */ bool clear; /* Set if page has to be cleared. */ }; struct exynos_fliphandler { struct pollfd fds; drmEventContext evctx; }; struct exynos_drm { drmModeRes *resources; drmModeConnector *connector; drmModeEncoder *encoder; drmModeModeInfo *mode; drmModeCrtc *orig_crtc; uint32_t crtc_id; uint32_t connector_id; }; struct exynos_data { char drmname[32]; int fd; struct exynos_device *device; struct exynos_drm *drm; struct exynos_fliphandler *fliphandler; /* G2D is used for scaling to framebuffer dimensions. */ struct g2d_context *g2d; struct g2d_image *dst; struct g2d_image *src[EXYNOS_IMAGE_COUNT]; struct exynos_bo *buf[EXYNOS_BUFFER_COUNT]; struct exynos_page *pages; unsigned num_pages; /* currently displayed page */ struct exynos_page *cur_page; unsigned pageflip_pending; /* framebuffer dimensions */ unsigned width, height; /* framebuffer aspect ratio */ float aspect; /* parameters for blitting core fb to screen */ unsigned blit_params[6]; /* bytes per pixel */ unsigned bpp; /* framebuffer parameters */ unsigned pitch, size; bool sync; #if (EXYNOS_GFX_DEBUG_PERF == 1) struct exynos_perf perf; #endif }; static INLINE unsigned align_common(unsigned i, unsigned j) { return (i + j - 1) & ~(j - 1); } /* Find the index of a compatible DRM device. */ static int exynos_get_device_index(void) { char buf[32]; int fd; drmVersionPtr ver; int index = 0; bool found = false; while (!found) { snprintf(buf, sizeof(buf), "/dev/dri/card%d", index); fd = open(buf, O_RDWR); if (fd < 0) break; ver = drmGetVersion(fd); if (strcmp("exynos", ver->name) == 0) found = true; else ++index; drmFreeVersion(ver); close(fd); } if (!found) return -1; return index; } /* Restore the original CRTC. */ static void exynos_restore_crtc(struct exynos_drm *d, int fd) { if (!d->orig_crtc) return; drmModeSetCrtc(fd, d->orig_crtc->crtc_id, d->orig_crtc->buffer_id, d->orig_crtc->x, d->orig_crtc->y, &d->connector_id, 1, &d->orig_crtc->mode); drmModeFreeCrtc(d->orig_crtc); d->orig_crtc = NULL; } static void exynos_clean_up_drm(struct exynos_drm *d, int fd) { if (d->encoder) drmModeFreeEncoder(d->encoder); if (d->connector) drmModeFreeConnector(d->connector); if (d->resources) drmModeFreeResources(d->resources); free(d); close(fd); } /* The main pageflip handler, which the DRM executes * when it flips to the page. * * Decreases the pending pageflip count and * updates the current page. */ static void exynos_page_flip_handler(int fd, unsigned frame, unsigned sec, unsigned usec, void *data) { struct exynos_page *page = data; #if (EXYNOS_GFX_DEBUG_LOG == 1) RARCH_LOG("[video_exynos]: in exynos_page_flip_handler, page = %p\n", page); #endif if (page->base->cur_page) page->base->cur_page->used = false; page->base->pageflip_pending--; page->base->cur_page = page; } static void exynos_wait_flip(struct exynos_fliphandler *fh) { const int timeout = -1; fh->fds.revents = 0; if (poll(&fh->fds, 1, timeout) < 0) return; if (fh->fds.revents & (POLLHUP | POLLERR)) return; if (fh->fds.revents & POLLIN) drmHandleEvent(fh->fds.fd, &fh->evctx); } static struct exynos_page *exynos_get_free_page( struct exynos_page *p, unsigned cnt) { unsigned i; for (i = 0; i < cnt; ++i) { if (!p[i].used) return &p[i]; } return NULL; } /* Count the number of used pages. */ static unsigned exynos_pages_used(struct exynos_page *p, unsigned cnt) { unsigned i; unsigned count = 0; for (i = 0; i < cnt; ++i) { if (p[i].used) ++count; } return count; } static void exynos_clean_up_pages(struct exynos_page *p, unsigned cnt) { unsigned i; for (i = 0; i < cnt; ++i) { if (p[i].bo != NULL) { if (p[i].buf_id != 0) drmModeRmFB(p[i].buf_id, p[i].bo->handle); exynos_bo_destroy(p[i].bo); } } } #if (EXYNOS_GFX_DEBUG_LOG == 1) static const char *exynos_buffer_name(enum exynos_buffer_type type) { switch (type) { case EXYNOS_BUFFER_MAIN: return "main"; case EXYNOS_BUFFER_AUX: return "aux"; default: assert(false); } return NULL; } #endif /* Create a GEM buffer with userspace mapping. * Buffer is cleared after creation. */ static struct exynos_bo *exynos_create_mapped_buffer( struct exynos_device *dev, unsigned size) { struct exynos_bo *buf; const unsigned flags = 0; buf = exynos_bo_create(dev, size, flags); if (!buf) { RARCH_ERR("[video_exynos]: failed to create temp buffer object\n"); return NULL; } if (!exynos_bo_map(buf)) { RARCH_ERR("[video_exynos]: failed to map temp buffer object\n"); exynos_bo_destroy(buf); return NULL; } memset(buf->vaddr, 0, size); return buf; } static int exynos_realloc_buffer(struct exynos_data *pdata, enum exynos_buffer_type type, unsigned size) { struct exynos_bo *buf = pdata->buf[type]; unsigned i; if (size > buf->size) { #if (EXYNOS_GFX_DEBUG_LOG == 1) RARCH_LOG("[video_exynos]: reallocating %s buffer (%u -> %u bytes)\n", exynos_buffer_name(type), buf->size, size); #endif exynos_bo_destroy(buf); buf = exynos_create_mapped_buffer(pdata->device, size); if (!buf) { RARCH_ERR("[video_exynos]: reallocation failed\n"); return -1; } pdata->buf[type] = buf; /* Map new GEM buffer to the G2D images backed by it. */ for (i = 0; i < EXYNOS_IMAGE_COUNT; ++i) { if (defaults[i].buf_type == type) pdata->src[i]->bo[0] = buf->handle; } } return 0; } /* Clear a buffer associated to a G2D image by doing a (fast) solid fill. */ static int exynos_clear_buffer(struct g2d_context *g2d, struct g2d_image *img) { int ret = g2d_solid_fill(g2d, img, 0, 0, img->width, img->height); if (ret == 0) ret = g2d_exec(g2d); if (ret != 0) RARCH_ERR("[video_exynos]: failed to clear buffer using G2D\n"); return ret; } /* Put a font glyph at a position in the buffer that is backing the G2D font image object. */ static void exynos_put_glyph_rgba4444(struct exynos_data *pdata, const uint8_t *__restrict__ src, uint16_t color, unsigned g_width, unsigned g_height, unsigned g_pitch, unsigned dst_x, unsigned dst_y) { unsigned x, y; const enum exynos_image_type buf_type = defaults[EXYNOS_IMAGE_FONT].buf_type; const unsigned buf_width = pdata->src[EXYNOS_IMAGE_FONT]->width; uint16_t *__restrict__ dst = (uint16_t*)pdata->buf[buf_type]->vaddr + dst_y * buf_width + dst_x; for (y = 0; y < g_height; ++y, src += g_pitch, dst += buf_width) { for (x = 0; x < g_width; ++x) { const uint16_t blend = src[x]; dst[x] = color | ((blend << 8) & 0xf000); } } } #if (EXYNOS_GFX_DEBUG_PERF == 1) static void exynos_perf_init(struct exynos_perf *p) { p->memcpy_calls = 0; p->g2d_calls = 0; p->memcpy_time = 0; p->g2d_time = 0; memset(&p->tspec, 0, sizeof(struct timespec)); } static void exynos_perf_finish(struct exynos_perf *p) { RARCH_LOG("[video_exynos]: debug: total memcpy calls: %u\n", p->memcpy_calls); RARCH_LOG("[video_exynos]: debug: total g2d calls: %u\n", p->g2d_calls); RARCH_LOG("[video_exynos]: debug: total memcpy time: %f seconds\n", (double)p->memcpy_time / 1000000.0); RARCH_LOG("[video_exynos]: debug: total g2d time: %f seconds\n", (double)p->g2d_time / 1000000.0); RARCH_LOG("[video_exynos]: debug: average time per memcpy call: %f microseconds\n", (double)p->memcpy_time / (double)p->memcpy_calls); RARCH_LOG("[video_exynos]: debug: average time per g2d call: %f microseconds\n", (double)p->g2d_time / (double)p->g2d_calls); } static void exynos_perf_memcpy(struct exynos_perf *p, bool start) { if (start) clock_gettime(CLOCK_MONOTONIC, &p->tspec); else { struct timespec new = { 0 }; clock_gettime(CLOCK_MONOTONIC, &new); p->memcpy_time += (new.tv_sec - p->tspec.tv_sec) * 1000000; p->memcpy_time += (new.tv_nsec - p->tspec.tv_nsec) / 1000; ++p->memcpy_calls; } } static void exynos_perf_g2d(struct exynos_perf *p, bool start) { if (start) clock_gettime(CLOCK_MONOTONIC, &p->tspec); else { struct timespec new = { 0 }; clock_gettime(CLOCK_MONOTONIC, &new); p->g2d_time += (new.tv_sec - p->tspec.tv_sec) * 1000000; p->g2d_time += (new.tv_nsec - p->tspec.tv_nsec) / 1000; ++p->g2d_calls; } } #endif static int exynos_g2d_init(struct exynos_data *pdata) { unsigned i; struct g2d_image *dst = NULL; struct g2d_context *g2d = g2d_init(pdata->fd); if (!g2d) return -1; dst = calloc(1, sizeof(struct g2d_image)); if (!dst) goto fail; dst->buf_type = G2D_IMGBUF_GEM; dst->color_mode = (pdata->bpp == 2) ? G2D_COLOR_FMT_RGB565 | G2D_ORDER_AXRGB : G2D_COLOR_FMT_ARGB8888 | G2D_ORDER_AXRGB; dst->width = pdata->width; dst->height = pdata->height; dst->stride = pdata->pitch; dst->color = 0xff000000; /* Clear color for solid fill operation. */ for (i = 0; i < EXYNOS_IMAGE_COUNT; ++i) { const enum exynos_buffer_type buf_type = defaults[i].buf_type; const unsigned buf_size = defaults[i].width * defaults[i].height * defaults[i].bpp; struct g2d_image *src = (struct g2d_image*)calloc(1, sizeof(struct g2d_image)); if (!src) break; src->width = defaults[i].width; src->height = defaults[i].height; src->stride = defaults[i].width * defaults[i].bpp; src->color_mode = defaults[i].g2d_color_mode; /* Associate GEM buffer storage with G2D image. */ src->buf_type = G2D_IMGBUF_GEM; src->bo[0] = pdata->buf[buf_type]->handle; src->repeat_mode = G2D_REPEAT_MODE_PAD; /* Pad creates no border artifacts. */ /* Make sure that the storage buffer is large enough. If the code is working * * properly, then this is just a NOP. Still put it here as an insurance. */ exynos_realloc_buffer(pdata, buf_type, buf_size); pdata->src[i] = src; } if (i != EXYNOS_IMAGE_COUNT) { while (i-- > 0) { free(pdata->src[i]); pdata->src[i] = NULL; } goto fail_src; } pdata->dst = dst; pdata->g2d = g2d; return 0; fail_src: free(dst); fail: g2d_fini(g2d); return -1; } static void exynos_g2d_free(struct exynos_data *pdata) { unsigned i; free(pdata->dst); for (i = 0; i < EXYNOS_IMAGE_COUNT; ++i) { free(pdata->src[i]); pdata->src[i] = NULL; } g2d_fini(pdata->g2d); } static int exynos_open(struct exynos_data *pdata) { char buf[32]; unsigned i; int fd = -1; struct exynos_drm *drm = NULL; struct exynos_fliphandler *fliphandler = NULL; settings_t *settings = config_get_ptr(); int devidx = exynos_get_device_index(); if (pdata) pdata->fd = -1; if (devidx != -1) snprintf(buf, sizeof(buf), "/dev/dri/card%d", devidx); else { RARCH_ERR("[video_exynos]: no compatible DRM device found\n"); return -1; } fd = open(buf, O_RDWR); if (fd < 0) { RARCH_ERR("[video_exynos]: can't open DRM device\n"); return -1; } drm = (struct exynos_drm*)calloc(1, sizeof(struct exynos_drm)); if (!drm) { RARCH_ERR("[video_exynos]: failed to allocate DRM.\n"); close(fd); return -1; } drm->resources = drmModeGetResources(fd); if (!drm->resources) { RARCH_ERR("[video_exynos]: failed to get DRM resources\n"); goto fail; } for (i = 0; i < drm->resources->count_connectors; ++i) { if (settings->video.monitor_index != 0 && settings->video.monitor_index - 1 != i) continue; drm->connector = drmModeGetConnector(fd, drm->resources->connectors[i]); if (!drm->connecto) continue; if (drm->connector->connection == DRM_MODE_CONNECTED && drm->connector->count_modes > 0) break; drmModeFreeConnector(drm->connector); drm->connector = NULL; } if (i == drm->resources->count_connectors) { RARCH_ERR("[video_exynos]: no currently active connector found.\n"); goto fail; } for (i = 0; i < drm->resources->count_encoders; i++) { drm->encoder = drmModeGetEncoder(fd, drm->resources->encoders[i]); if (!drm->encoder) continue; if (drm->encoder->encoder_id == drm->connector->encoder_id) break; drmModeFreeEncoder(drm->encoder); drm->encoder = NULL; } fliphandler = (struct exynos_fliphandler*)calloc(1, sizeof(struct exynos_fliphandler)); if (!fliphandler) { RARCH_ERR("[video_exynos]: failed to allocate fliphandler\n"); goto fail; } /* Setup the flip handler. */ fliphandler->fds.fd = fd; fliphandler->fds.events = POLLIN; fliphandler->evctx.version = DRM_EVENT_CONTEXT_VERSION; fliphandler->evctx.page_flip_handler = exynos_page_flip_handler; strncpy(pdata->drmname, buf, sizeof(buf)); pdata->fd = fd; pdata->drm = drm; pdata->fliphandler = fliphandler; RARCH_LOG("[video_exynos]: using DRM device \"%s\" with connector id %u.\n", pdata->drmname, pdata->drm->connector->connector_id); return 0; fail: free(fliphandler); exynos_clean_up_drm(drm, fd); return -1; } /* Counterpart to exynos_open. */ static void exynos_close(struct exynos_data *pdata) { free(pdata->fliphandler); pdata->fliphandler = NULL; memset(pdata->drmname, 0, sizeof(char) * 32); exynos_clean_up_drm(pdata->drm, pdata->fd); pdata->fd = -1; pdata->drm = NULL; } static int exynos_init(struct exynos_data *pdata, unsigned bpp) { unsigned i; int fd = pdata->fd; struct exynos_drm *drm = pdata->drm; settings_t *settings = config_get_ptr(); if (settings->video.fullscreen_x != 0 && settings->video.fullscreen_y != 0) { for (i = 0; i < drm->connector->count_modes; i++) { if (drm->connector->modes[i].hdisplay == settings->video.fullscreen_x && drm->connector->modes[i].vdisplay == settings->video.fullscreen_y) { drm->mode = &drm->connector->modes[i]; break; } } if (!drm->mode) { RARCH_ERR("[video_exynos]: requested resolution (%ux%u) not available\n", settings->video.fullscreen_x, settings->video.fullscreen_y); goto fail; } } else { /* Select first mode, which is the native one. */ drm->mode = &drm->connector->modes[0]; } if (drm->mode->hdisplay == 0 || drm->mode->vdisplay == 0) { RARCH_ERR("[video_exynos]: failed to select sane resolution\n"); goto fail; } drm->crtc_id = drm->encoder->crtc_id; drm->connector_id = drm->connector->connector_id; drm->orig_crtc = drmModeGetCrtc(fd, drm->crtc_id); if (!drm->orig_crtc) RARCH_WARN("[video_exynos]: cannot find original crtc\n"); pdata->width = drm->mode->hdisplay; pdata->height = drm->mode->vdisplay; pdata->aspect = (float)drm->mode->hdisplay / (float)drm->mode->vdisplay; /* Always use triple buffering to reduce chance of tearing. */ pdata->num_pages = 3; pdata->bpp = bpp; pdata->pitch = bpp * pdata->width; pdata->size = pdata->pitch * pdata->height; RARCH_LOG("[video_exynos]: selected %ux%u resolution with %u bpp\n", pdata->width, pdata->height, pdata->bpp); return 0; fail: exynos_restore_crtc(drm, fd); drm->mode = NULL; return -1; } /* Counterpart to exynos_init. */ static void exynos_deinit(struct exynos_data *pdata) { struct exynos_drm *drm = pdata->drm; exynos_restore_crtc(drm, pdata->fd); drm = NULL; pdata->width = 0; pdata->height = 0; pdata->num_pages = 0; pdata->bpp = 0; pdata->pitch = 0; pdata->size = 0; } static int exynos_alloc(struct exynos_data *pdata) { struct exynos_bo *bo; struct exynos_page *pages; unsigned i; uint32_t pixel_format; const unsigned flags = 0; uint32_t handles[4] = {0}, pitches[4] = {0}, offsets[4] = {0}; struct exynos_device *device = exynos_device_create(pdata->fd); if (!device) { RARCH_ERR("[video_exynos]: failed to create device from fd\n"); return -1; } pages = (struct exynos_page*)calloc(pdata->num_pages, sizeof(struct exynos_page)); if (!pages) { RARCH_ERR("[video_exynos]: failed to allocate pages\n"); goto fail_alloc; } for (i = 0; i < EXYNOS_BUFFER_COUNT; ++i) { const unsigned buffer_size = defaults[i].width * defaults[i].height * defaults[i].bpp; bo = exynos_create_mapped_buffer(device, buffer_size); if (!bo) break; pdata->buf[i] = bo; } if (i != EXYNOS_BUFFER_COUNT) { while (i-- > 0) { exynos_bo_destroy(pdata->buf[i]); pdata->buf[i] = NULL; } goto fail; } for (i = 0; i < pdata->num_pages; ++i) { bo = exynos_bo_create(device, pdata->size, flags); if (!bo) { RARCH_ERR("[video_exynos]: failed to create buffer object\n"); goto fail; } /* Don't map the BO, since we don't access it through userspace. */ pages[i].bo = bo; pages[i].base = pdata; pages[i].used = false; pages[i].clear = true; } pixel_format = (pdata->bpp == 2) ? DRM_FORMAT_RGB565 : DRM_FORMAT_XRGB8888; pitches[0] = pdata->pitch; offsets[0] = 0; for (i = 0; i < pdata->num_pages; ++i) { handles[0] = pages[i].bo->handle; if (drmModeAddFB2(pdata->fd, pdata->width, pdata->height, pixel_format, handles, pitches, offsets, &pages[i].buf_id, flags)) { RARCH_ERR("[video_exynos]: failed to add bo %u to fb\n", i); goto fail; } } /* Setup CRTC: display the last allocated page. */ if (drmModeSetCrtc(pdata->fd, pdata->drm->crtc_id, pages[pdata->num_pages - 1].buf_id, 0, 0, &pdata->drm->connector_id, 1, pdata->drm->mode)) { RARCH_ERR("[video_exynos]: initial CRTC setup failed.\n"); goto fail; } pdata->pages = pages; pdata->device = device; return 0; fail: exynos_clean_up_pages(pages, pdata->num_pages); fail_alloc: exynos_device_destroy(device); return -1; } /* Counterpart to exynos_alloc. */ static void exynos_free(struct exynos_data *pdata) { unsigned i; /* Disable the CRTC. */ if (drmModeSetCrtc(pdata->fd, pdata->drm->crtc_id, 0, 0, 0, NULL, 0, NULL)) RARCH_WARN("[video_exynos]: failed to disable the CRTC.\n"); exynos_clean_up_pages(pdata->pages, pdata->num_pages); free(pdata->pages); pdata->pages = NULL; for (i = 0; i < EXYNOS_BUFFER_COUNT; ++i) { exynos_bo_destroy(pdata->buf[i]); pdata->buf[i] = NULL; } exynos_device_destroy(pdata->device); pdata->device = NULL; } #if (EXYNOS_GFX_DEBUG_LOG == 1) static void exynos_alloc_status(struct exynos_data *pdata) { unsigned i; struct exynos_page *pages = pdata->pages; RARCH_LOG("[video_exynos]: Allocated %u pages with %u bytes each (pitch = %u bytes)\n", pdata->num_pages, pdata->size, pdata->pitch); for (i = 0; i < pdata->num_pages; ++i) { RARCH_LOG("[video_exynos]: page %u: BO at %p, buffer id = %u\n", i, pages[i].bo, pages[i].buf_id); } } #endif /* Find a free page, clear it if necessary, and return the page. If * * no free page is available when called, wait for a page flip. */ static struct exynos_page *exynos_free_page(struct exynos_data *pdata) { struct exynos_page *page = NULL; struct g2d_image *dst = pdata->dst; /* Wait until a free page is available. */ while (!page) { page = exynos_get_free_page(pdata->pages, pdata->num_pages); if (!page) exynos_wait_flip(pdata->fliphandler); } dst->bo[0] = page->bo->handle; if (page->clear) { if (exynos_clear_buffer(pdata->g2d, dst) == 0) page->clear = false; } page->used = true; return page; } static void exynos_setup_scale(struct exynos_data *pdata, unsigned width, unsigned height, unsigned src_bpp) { unsigned i; unsigned w, h; struct g2d_image *src = pdata->src[EXYNOS_IMAGE_FRAME]; const float aspect = (float)width / (float)height; src->width = width; src->height = height; src->color_mode = (src_bpp == 2) ? G2D_COLOR_FMT_RGB565 | G2D_ORDER_AXRGB: G2D_COLOR_FMT_XRGB8888 | G2D_ORDER_AXRGB; if (fabsf(pdata->aspect - aspect) < 0.0001f) { w = pdata->width; h = pdata->height; } else { if (pdata->aspect > aspect) { w = (float)pdata->width * aspect / pdata->aspect; h = pdata->height; } else { w = pdata->width; h = (float)pdata->height * pdata->aspect / aspect; } } pdata->blit_params[0] = (pdata->width - w) / 2; pdata->blit_params[1] = (pdata->height - h) / 2; pdata->blit_params[2] = w; pdata->blit_params[3] = h; pdata->blit_params[4] = width; pdata->blit_params[5] = height; for (i = 0; i < pdata->num_pages; ++i) pdata->pages[i].clear = true; } static void exynos_set_fake_blit(struct exynos_data *pdata) { unsigned i; pdata->blit_params[0] = 0; pdata->blit_params[1] = 0; pdata->blit_params[2] = pdata->width; pdata->blit_params[3] = pdata->height; for (i = 0; i < pdata->num_pages; ++i) pdata->pages[i].clear = true; } static int exynos_blit_frame(struct exynos_data *pdata, const void *frame, unsigned src_pitch) { const enum exynos_buffer_type buf_type = defaults[EXYNOS_IMAGE_FRAME].buf_type; const unsigned size = src_pitch * pdata->blit_params[5]; struct g2d_image *src = pdata->src[EXYNOS_IMAGE_FRAME]; if (exynos_realloc_buffer(pdata, buf_type, size) != 0) return -1; #if (EXYNOS_GFX_DEBUG_PERF == 1) exynos_perf_memcpy(&pdata->perf, true); #endif /* HACK: Without IOMMU the G2D only works properly between GEM buffers. */ memcpy_neon(pdata->buf[buf_type]->vaddr, frame, size); src->stride = src_pitch; #if (EXYNOS_GFX_DEBUG_PERF == 1) exynos_perf_memcpy(&pdata->perf, false); #endif #if (EXYNOS_GFX_DEBUG_PERF == 1) exynos_perf_g2d(&pdata->perf, true); #endif if (g2d_copy_with_scale(pdata->g2d, src, pdata->dst, 0, 0, pdata->blit_params[4], pdata->blit_params[5], pdata->blit_params[0], pdata->blit_params[1], pdata->blit_params[2], pdata->blit_params[3], 0) || g2d_exec(pdata->g2d)) { RARCH_ERR("[video_exynos]: failed to blit frame.\n"); return -1; } #if (EXYNOS_GFX_DEBUG_PERF == 1) exynos_perf_g2d(&pdata->perf, false); #endif return 0; } static int exynos_blend_menu(struct exynos_data *pdata, unsigned rotation) { struct g2d_image *src = pdata->src[EXYNOS_IMAGE_MENU]; #if (EXYNOS_GFX_DEBUG_PERF == 1) exynos_perf_g2d(&pdata->perf, true); #endif if (g2d_scale_and_blend(pdata->g2d, src, pdata->dst, 0, 0, src->width, src->height, pdata->blit_params[0], pdata->blit_params[1], pdata->blit_params[2], pdata->blit_params[3], G2D_OP_INTERPOLATE) || g2d_exec(pdata->g2d)) { RARCH_ERR("[video_exynos]: failed to blend menu.\n"); return -1; } #if (EXYNOS_GFX_DEBUG_PERF == 1) exynos_perf_g2d(&pdata->perf, false); #endif return 0; } static int exynos_blend_font(struct exynos_data *pdata) { struct g2d_image *src = pdata->src[EXYNOS_IMAGE_FONT]; #if (EXYNOS_GFX_DEBUG_PERF == 1) exynos_perf_g2d(&pdata->perf, true); #endif if (g2d_scale_and_blend(pdata->g2d, src, pdata->dst, 0, 0, src->width, src->height, 0, 0, pdata->width, pdata->height, G2D_OP_INTERPOLATE) || g2d_exec(pdata->g2d)) { RARCH_ERR("[video_exynos]: failed to blend font\n"); return -1; } #if (EXYNOS_GFX_DEBUG_PERF == 1) exynos_perf_g2d(&pdata->perf, false); #endif return 0; } static int exynos_flip(struct exynos_data *pdata, struct exynos_page *page) { /* We don't queue multiple page flips. */ if (pdata->pageflip_pending > 0) exynos_wait_flip(pdata->fliphandler); /* Issue a page flip at the next vblank interval. */ if (drmModePageFlip(pdata->fd, pdata->drm->crtc_id, page->buf_id, DRM_MODE_PAGE_FLIP_EVENT, page) != 0) { RARCH_ERR("[video_exynos]: failed to issue page flip\n"); return -1; } else { pdata->pageflip_pending++; } /* On startup no frame is displayed. We therefore wait for the initial flip to finish. */ if (!pdata->cur_page) exynos_wait_flip(pdata->fliphandler); return 0; } struct exynos_video { struct exynos_data *data; void *font; const font_renderer_driver_t *font_driver; uint16_t font_color; /* ARGB4444 */ unsigned bytes_per_pixel; /* current dimensions of the core fb */ unsigned width; unsigned height; /* menu data */ unsigned menu_rotation; bool menu_active; bool aspect_changed; }; static int exynos_init_font(struct exynos_video *vid) { struct exynos_data *pdata = vid->data; struct g2d_image *src = pdata->src[EXYNOS_IMAGE_FONT]; const unsigned buf_height = defaults[EXYNOS_IMAGE_FONT].height; const unsigned buf_width = align_common(pdata->aspect * (float)buf_height, 16); const unsigned buf_bpp = defaults[EXYNOS_IMAGE_FONT].bpp; settings_t *settings = config_get_ptr(); if (!settings->video.font_enable) return 0; if (font_renderer_create_default(&vid->font_driver, &vid->font, *settings->video.font_path ? settings->video.font_path : NULL, settings->video.font_size)) { const int r = settings->video.msg_color_r * 15; const int g = settings->video.msg_color_g * 15; const int b = settings->video.msg_color_b * 15; vid->font_color = ((b < 0 ? 0 : (b > 15 ? 15 : b)) << 0) | ((g < 0 ? 0 : (g > 15 ? 15 : g)) << 4) | ((r < 0 ? 0 : (r > 15 ? 15 : r)) << 8); } else { RARCH_ERR("[video_exynos]: creating font renderer failed\n"); return -1; } /* The font buffer color type is ARGB4444. */ if (exynos_realloc_buffer(pdata, defaults[EXYNOS_IMAGE_FONT].buf_type, buf_width * buf_height * buf_bpp) != 0) { vid->font_driver->free(vid->font); return -1; } src->width = buf_width; src->height = buf_height; src->stride = buf_width * buf_bpp; #if (EXYNOS_GFX_DEBUG_LOG == 1) RARCH_LOG("[video_exynos]: using font rendering image with size %ux%u\n", buf_width, buf_height); #endif return 0; } static int exynos_render_msg(struct exynos_video *vid, const char *msg) { const struct font_atlas *atlas; struct exynos_data *pdata = vid->data; struct g2d_image *dst = pdata->src[EXYNOS_IMAGE_FONT]; settings_t *settings = config_get_ptr(); int msg_base_x = settings->video.msg_pos_x * dst->width; int msg_base_y = (1.0f - settings->video.msg_pos_y) * dst->height; if (!vid->font || !vid->font_driver) return -1; if (exynos_clear_buffer(pdata->g2d, dst) != 0) return -1; atlas = vid->font_driver->get_atlas(vid->font); for (; *msg; ++msg) { int base_x, base_y; int glyph_width, glyph_height; const uint8_t *src = NULL; const struct font_glyph *glyph = vid->font_driver->get_glyph(vid->font, (uint8_t)*msg); if (!glyph) continue; base_x = msg_base_x + glyph->draw_offset_x; base_y = msg_base_y + glyph->draw_offset_y; const int max_width = dst->width - base_x; const int max_height = dst->height - base_y; glyph_width = glyph->width; glyph_height = glyph->height; src = atlas->buffer + glyph->atlas_offset_x + glyph->atlas_offset_y * atlas->width; if (base_x < 0) { src -= base_x; glyph_width += base_x; base_x = 0; } if (base_y < 0) { src -= base_y * (int)atlas->width; glyph_height += base_y; base_y = 0; } if (max_width <= 0 || max_height <= 0) continue; if (glyph_width > max_width) glyph_width = max_width; if (glyph_height > max_height) glyph_height = max_height; exynos_put_glyph_rgba4444(pdata, src, vid->font_color, glyph_width, glyph_height, atlas->width, base_x, base_y); msg_base_x += glyph->advance_x; msg_base_y += glyph->advance_y; } return exynos_blend_font(pdata); } static void *exynos_gfx_init(const video_info_t *video, const input_driver_t **input, void **input_data) { struct exynos_video *vid; const unsigned fb_bpp = 4; /* Use XRGB8888 framebuffer. */ vid = calloc(1, sizeof(struct exynos_video)); if (!vid) return NULL; vid->data = calloc(1, sizeof(struct exynos_data)); if (!vid->data) goto fail_data; vid->bytes_per_pixel = video->rgb32 ? 4 : 2; if (exynos_open(vid->data) != 0) { RARCH_ERR("[video_exynos]: opening device failed\n"); goto fail; } if (exynos_init(vid->data, fb_bpp) != 0) { RARCH_ERR("[video_exynos]: initialization failed\n"); goto fail_init; } if (exynos_alloc(vid->data) != 0) { RARCH_ERR("[video_exynos]: allocation failed\n"); goto fail_alloc; } if (exynos_g2d_init(vid->data) != 0) { RARCH_ERR("[video_exynos]: G2D initialization failed\n"); goto fail_g2d; } #if (EXYNOS_GFX_DEBUG_LOG == 1) exynos_alloc_status(vid->data); #endif #if (EXYNOS_GFX_DEBUG_PERF == 1) exynos_perf_init(&vid->data->perf); #endif if (input && input_data) *input = NULL; if (exynos_init_font(vid) != 0) { RARCH_ERR("[video_exynos]: font initialization failed\n"); goto fail_font; } return vid; fail_font: exynos_g2d_free(vid->data); fail_g2d: exynos_free(vid->data); fail_alloc: exynos_deinit(vid->data); fail_init: exynos_close(vid->data); fail: free(vid->data); fail_data: free(vid); return NULL; } static void exynos_gfx_free(void *data) { struct exynos_video *vid = data; struct exynos_data *pdata; if (!vid) return; pdata = vid->data; exynos_g2d_free(pdata); /* Flush pages: One page remains, the one being displayed at this moment. */ while (exynos_pages_used(pdata->pages, pdata->num_pages) > 1) exynos_wait_flip(pdata->fliphandler); exynos_free(pdata); exynos_deinit(pdata); exynos_close(pdata); #if (EXYNOS_GFX_DEBUG_PERF == 1) exynos_perf_finish(&pdata->perf); #endif free(pdata); if (vid->font != NULL && vid->font_driver != NULL) vid->font_driver->free(vid->font); free(vid); } static bool exynos_gfx_frame(void *data, const void *frame, unsigned width, unsigned height, unsigned pitch, const char *msg) { struct exynos_video *vid = data; struct exynos_page *page = NULL; settings_t *settings = config_get_ptr(); /* Check if neither menu nor core framebuffer is to be displayed. */ if (!vid->menu_active && !frame) return true; if (frame != NULL) { if (width != vid->width || height != vid->height) { /* Sanity check on new dimension parameters. */ if (width == 0 || height == 0) return true; RARCH_LOG("[video_exynos]: resolution changed by core: %ux%u -> %ux%u\n", vid->width, vid->height, width, height); exynos_setup_scale(vid->data, width, height, vid->bytes_per_pixel); vid->width = width; vid->height = height; } page = exynos_free_page(vid->data); if (exynos_blit_frame(vid->data, frame, pitch) != 0) goto fail; } if (settings->fps_show) { char buffer[128], buffer_fps[128]; video_monitor_get_fps(buffer, sizeof(buffer), settings->fps_show ? buffer_fps : NULL, sizeof(buffer_fps)); rarch_main_msg_queue_push(buffer_fps, 1, 1, false); } /* If at this point the dimension parameters are still zero, setup some * * fake blit parameters so that menu and font rendering work properly. */ if (vid->width == 0 || vid->height == 0) exynos_set_fake_blit(vid->data); if (!page) page = exynos_free_page(vid->data); if (vid->menu_active) { if (exynos_blend_menu(vid->data, vid->menu_rotation) != 0) goto fail; } if (msg) { if (exynos_render_msg(vid, msg) != 0) goto fail; /* Font is blitted to the entire screen, so issue clear afterwards. */ page->clear = true; } if (exynos_flip(vid->data, page) != 0) goto fail; vid->frame_count++; return true; fail: /* Since we didn't manage to issue a pageflip to this page, set * * it to 'unused' again, and hope that it works next time. */ page->used = false; return false; } static void exynos_gfx_set_nonblock_state(void *data, bool state) { struct exynos_video *vid = data; if (vid && vid->data) vid->data->sync = !state; } static bool exynos_gfx_alive(void *data) { (void)data; return true; /* always alive */ } static bool exynos_gfx_focus(void *data) { (void)data; return true; /* drm device always has focus */ } static bool exynos_gfx_suppress_screensaver(void *data, bool enable) { (void)data; (void)enable; return false; } static bool exynos_gfx_has_windowed(void *data) { (void)data; return false; } static void exynos_gfx_set_rotation(void *data, unsigned rotation) { struct exynos_video *vid = (struct exynos_video*)data; if (vid) vid->menu_rotation = rotation; } static void exynos_gfx_viewport_info(void *data, struct video_viewport *vp) { struct exynos_video *vid = (struct exynos_video*)data; if (!vid) return; vp->x = vp->y = 0; vp->width = vp->full_width = vid->width; vp->height = vp->full_height = vid->height; } static void exynos_set_aspect_ratio(void *data, unsigned aspect_ratio_idx) { struct exynos_video *vid = (struct exynos_video*)data; global_t *global = global_get_ptr(); switch (aspect_ratio_idx) { case ASPECT_RATIO_SQUARE: video_viewport_set_square_pixel( global->system.av_info.geometry.base_width, global->system.av_info.geometry.base_height); break; case ASPECT_RATIO_CORE: video_viewport_set_core(); break; case ASPECT_RATIO_CONFIG: video_viewport_set_config(); break; default: break; } video_driver_set_aspect_ratio_value(aspectratio_lut[aspect_ratio_idx].value); vid->aspect_changed = true; } static void exynos_apply_state_changes(void *data) { (void)data; } static void exynos_set_texture_frame(void *data, const void *frame, bool rgb32, unsigned width, unsigned height, float alpha) { const enum exynos_buffer_type buf_type = defaults[EXYNOS_IMAGE_MENU].buf_type; struct exynos_video *vid = data; struct exynos_data *pdata = vid->data; struct g2d_image *src = pdata->src[EXYNOS_IMAGE_MENU]; const unsigned size = width * height * (rgb32 ? 4 : 2); if (exynos_realloc_buffer(pdata, buf_type, size) != 0) return; src->width = width; src->height = height; src->stride = width * (rgb32 ? 4 : 2); src->color_mode = rgb32 ? G2D_COLOR_FMT_ARGB8888 | G2D_ORDER_RGBAX : G2D_COLOR_FMT_ARGB4444 | G2D_ORDER_RGBAX; src->component_alpha = (unsigned char)(255.0f * alpha); #if (EXYNOS_GFX_DEBUG_PERF == 1) exynos_perf_memcpy(&pdata->perf, true); #endif memcpy_neon(pdata->buf[buf_type]->vaddr, frame, size); #if (EXYNOS_GFX_DEBUG_PERF == 1) exynos_perf_memcpy(&pdata->perf, false); #endif } static void exynos_set_texture_enable(void *data, bool state, bool full_screen) { struct exynos_video *vid = data; if (vid) vid->menu_active = state; } static void exynos_set_osd_msg(void *data, const char *msg, const struct font_params *params) { (void)data; (void)msg; (void)params; } static void exynos_show_mouse(void *data, bool state) { (void)data; (void)state; } static uint64_t exynos_get_frame_count(void *data) { struct exynos_video *vid = data; if (!vid) return 0; return vid->frame_count; } static const video_poke_interface_t exynos_poke_interface = { exynos_get_frame_count, NULL, /* set_video_mode */ NULL, /* set_filtering */ NULL, /* get_video_output_size */ NULL, /* get_video_output_prev */ NULL, /* get_video_output_next */ NULL, /* get_current_framebuffer */ NULL, /* get_proc_address */ exynos_set_aspect_ratio, exynos_apply_state_changes, #ifdef HAVE_MENU exynos_set_texture_frame, exynos_set_texture_enable, #endif exynos_set_osd_msg, exynos_show_mouse }; static void exynos_gfx_get_poke_interface(void *data, const video_poke_interface_t **iface) { (void)data; *iface = &exynos_poke_interface; } static bool exynos_gfx_set_shader(void *data, enum rarch_shader_type type, const char *path) { (void)data; (void)type; (void)path; return false; } static bool exynos_gfx_read_viewport(void *data, uint8_t *buffer) { (void)data; (void)buffer; return true; } video_driver_t video_exynos = { exynos_gfx_init, exynos_gfx_frame, exynos_gfx_set_nonblock_state, exynos_gfx_alive, exynos_gfx_focus, exynos_gfx_suppress_screensaver, exynos_gfx_has_windowed, exynos_gfx_set_shader, exynos_gfx_free, "exynos", NULL, /* set_viewport */ exynos_gfx_set_rotation, exynos_gfx_viewport_info, exynos_gfx_read_viewport, NULL, /* read_frame_raw */ #ifdef HAVE_OVERLAY NULL, /* overlay_interface */ #endif exynos_gfx_get_poke_interface };