/************************************************************************** * * Copyright (C) 2015 Red Hat Inc. * * 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 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. * **************************************************************************/ #include #include #include #include #include #include #include "virgl_hw.h" #include "virglrenderer.h" #include #include "vtest.h" #include "vtest_protocol.h" #include "util.h" #include "util/u_debug.h" #include "util/u_math.h" #include "util/u_memory.h" #include "util/u_hash_table.h" static int ctx_id = 1; static int fence_id = 1; static int last_fence; static void vtest_write_fence(UNUSED void *cookie, uint32_t fence_id_in) { last_fence = fence_id_in; } struct virgl_renderer_callbacks vtest_cbs = { .version = 1, .write_fence = vtest_write_fence, }; struct vtest_renderer { int in_fd; int out_fd; unsigned protocol_version; struct util_hash_table *iovec_hash; }; struct vtest_renderer renderer; static int __failed_call(const char* func, const char *called, int ret) { fprintf(stderr, "%s called %s which failed (%d)\n", func, called, ret); return ret; } #define report_failed_call(called, ret) \ __failed_call(__FUNCTION__, called, ret) static int __failure(const char* func, const char *reason, int ret) { fprintf(stderr, "%s %s (%d)\n", func, reason, ret); return ret; } #define report_failure(reason, ret) \ __failure(__FUNCTION__, reason, ret) static unsigned hash_func(void *key) { intptr_t ip = pointer_to_intptr(key); return (unsigned)(ip & 0xffffffff); } static int compare_iovecs(void *key1, void *key2) { if (key1 < key2) { return -1; } else if (key1 > key2) { return 1; } else { return 0; } } static void free_iovec(void *value) { struct iovec *iovec = value; free(iovec->iov_base); free(iovec); } static int vtest_block_write(int fd, void *buf, int size) { void *ptr = buf; int left; int ret; left = size; do { ret = write(fd, ptr, left); if (ret < 0) { return -errno; } left -= ret; ptr += ret; } while (left); return size; } static int vtest_block_write_zero(int fd, int size) { char zero[256] = {0}; int left; int ret; left = size; do { ret = write(fd, zero, MIN2(left, 256)); if (ret < 0) { return -errno; } left -= ret; } while (left); return size; } int vtest_block_read(int fd, void *buf, int size) { void *ptr = buf; int left; int ret; static int savefd = -1; left = size; do { ret = read(fd, ptr, left); if (ret <= 0) { return ret == -1 ? -errno : 0; } left -= ret; ptr += ret; } while (left); if (getenv("VTEST_SAVE")) { if (savefd == -1) { savefd = open(getenv("VTEST_SAVE"), O_CLOEXEC|O_CREAT|O_WRONLY|O_TRUNC|O_DSYNC, S_IRUSR|S_IWUSR); if (savefd == -1) { perror("error opening save file"); exit(1); } } if (write(savefd, buf, size) != size) { perror("failed to save"); exit(1); } } return size; } int vtest_create_renderer(int in_fd, int out_fd, uint32_t length, int ctx_flags) { char *vtestname; int ret; renderer.iovec_hash = util_hash_table_create(hash_func, compare_iovecs, free_iovec); renderer.in_fd = in_fd; renderer.out_fd = out_fd; /* By default we support version 0 unless VCMD_PROTOCOL_VERSION is sent */ renderer.protocol_version = 0; ret = virgl_renderer_init(&renderer, ctx_flags | VIRGL_RENDERER_THREAD_SYNC, &vtest_cbs); if (ret) { fprintf(stderr, "failed to initialise renderer.\n"); return -1; } vtestname = calloc(1, length + 1); if (!vtestname) { return -1; } ret = vtest_block_read(renderer.in_fd, vtestname, length); if (ret != (int)length) { ret = -1; goto end; } ret = virgl_renderer_context_create(ctx_id, strlen(vtestname), vtestname); end: free(vtestname); return ret; } int vtest_ping_protocol_version(UNUSED uint32_t length_dw) { uint32_t hdr_buf[VTEST_HDR_SIZE]; int ret; hdr_buf[VTEST_CMD_LEN] = VCMD_PING_PROTOCOL_VERSION_SIZE; hdr_buf[VTEST_CMD_ID] = VCMD_PING_PROTOCOL_VERSION; ret = vtest_block_write(renderer.out_fd, hdr_buf, sizeof(hdr_buf)); if (ret < 0) { return ret; } return 0; } int vtest_protocol_version(UNUSED uint32_t length_dw) { uint32_t hdr_buf[VTEST_HDR_SIZE]; uint32_t version_buf[VCMD_PROTOCOL_VERSION_SIZE]; int ret; ret = vtest_block_read(renderer.in_fd, &version_buf, sizeof(version_buf)); if (ret != sizeof(version_buf)) return -1; renderer.protocol_version = MIN2(version_buf[VCMD_PROTOCOL_VERSION_VERSION], VTEST_PROTOCOL_VERSION); hdr_buf[VTEST_CMD_LEN] = VCMD_PROTOCOL_VERSION_SIZE; hdr_buf[VTEST_CMD_ID] = VCMD_PROTOCOL_VERSION; version_buf[VCMD_PROTOCOL_VERSION_VERSION] = renderer.protocol_version; ret = vtest_block_write(renderer.out_fd, hdr_buf, sizeof(hdr_buf)); if (ret < 0) { return ret; } ret = vtest_block_write(renderer.out_fd, version_buf, sizeof(version_buf)); if (ret < 0) { return ret; } return 0; } void vtest_destroy_renderer(void) { virgl_renderer_context_destroy(ctx_id); virgl_renderer_cleanup(&renderer); renderer.in_fd = -1; renderer.out_fd = -1; } int vtest_send_caps2(UNUSED uint32_t length_dw) { uint32_t hdr_buf[2]; void *caps_buf; int ret; uint32_t max_ver, max_size; virgl_renderer_get_cap_set(2, &max_ver, &max_size); if (max_size == 0) { return -1; } caps_buf = malloc(max_size); if (!caps_buf) { return -1; } virgl_renderer_fill_caps(2, 1, caps_buf); hdr_buf[0] = max_size + 1; hdr_buf[1] = 2; ret = vtest_block_write(renderer.out_fd, hdr_buf, 8); if (ret < 0) { goto end; } vtest_block_write(renderer.out_fd, caps_buf, max_size); if (ret < 0) { goto end; } end: free(caps_buf); return 0; } int vtest_send_caps(UNUSED uint32_t length_dw) { uint32_t max_ver, max_size; void *caps_buf; uint32_t hdr_buf[2]; int ret; virgl_renderer_get_cap_set(1, &max_ver, &max_size); caps_buf = malloc(max_size); if (!caps_buf) { return -1; } virgl_renderer_fill_caps(1, 1, caps_buf); hdr_buf[0] = max_size + 1; hdr_buf[1] = 1; ret = vtest_block_write(renderer.out_fd, hdr_buf, 8); if (ret < 0) { goto end; } vtest_block_write(renderer.out_fd, caps_buf, max_size); if (ret < 0) { goto end; } end: free(caps_buf); return 0; } int vtest_create_resource(UNUSED uint32_t length_dw) { uint32_t res_create_buf[VCMD_RES_CREATE_SIZE]; struct virgl_renderer_resource_create_args args; int ret; ret = vtest_block_read(renderer.in_fd, &res_create_buf, sizeof(res_create_buf)); if (ret != sizeof(res_create_buf)) { return -1; } args.handle = res_create_buf[VCMD_RES_CREATE_RES_HANDLE]; args.target = res_create_buf[VCMD_RES_CREATE_TARGET]; args.format = res_create_buf[VCMD_RES_CREATE_FORMAT]; args.bind = res_create_buf[VCMD_RES_CREATE_BIND]; args.width = res_create_buf[VCMD_RES_CREATE_WIDTH]; args.height = res_create_buf[VCMD_RES_CREATE_HEIGHT]; args.depth = res_create_buf[VCMD_RES_CREATE_DEPTH]; args.array_size = res_create_buf[VCMD_RES_CREATE_ARRAY_SIZE]; args.last_level = res_create_buf[VCMD_RES_CREATE_LAST_LEVEL]; args.nr_samples = res_create_buf[VCMD_RES_CREATE_NR_SAMPLES]; args.flags = 0; ret = virgl_renderer_resource_create(&args, NULL, 0); virgl_renderer_ctx_attach_resource(ctx_id, args.handle); return ret; } int vtest_create_resource2(UNUSED uint32_t length_dw) { uint32_t res_create_buf[VCMD_RES_CREATE2_SIZE]; struct virgl_renderer_resource_create_args args; struct iovec *iovec; int ret; ret = vtest_block_read(renderer.in_fd, &res_create_buf, sizeof(res_create_buf)); if (ret != sizeof(res_create_buf)) { return -1; } args.handle = res_create_buf[VCMD_RES_CREATE2_RES_HANDLE]; args.target = res_create_buf[VCMD_RES_CREATE2_TARGET]; args.format = res_create_buf[VCMD_RES_CREATE2_FORMAT]; args.bind = res_create_buf[VCMD_RES_CREATE2_BIND]; args.width = res_create_buf[VCMD_RES_CREATE2_WIDTH]; args.height = res_create_buf[VCMD_RES_CREATE2_HEIGHT]; args.depth = res_create_buf[VCMD_RES_CREATE2_DEPTH]; args.array_size = res_create_buf[VCMD_RES_CREATE2_ARRAY_SIZE]; args.last_level = res_create_buf[VCMD_RES_CREATE2_LAST_LEVEL]; args.nr_samples = res_create_buf[VCMD_RES_CREATE2_NR_SAMPLES]; args.flags = 0; // Check that the handle doesn't already exist. if (util_hash_table_get(renderer.iovec_hash, intptr_to_pointer(args.handle))) { return -EEXIST; } ret = virgl_renderer_resource_create(&args, NULL, 0); if (ret) { return ret; } virgl_renderer_ctx_attach_resource(ctx_id, args.handle); iovec = CALLOC_STRUCT(iovec); if (!iovec) { return -ENOMEM; } iovec->iov_len = res_create_buf[VCMD_RES_CREATE2_DATA_SIZE]; iovec->iov_base = calloc(1, iovec->iov_len); if (!iovec->iov_base) { FREE(iovec); return -ENOMEM; } virgl_renderer_resource_attach_iov(args.handle, iovec, 1); util_hash_table_set(renderer.iovec_hash, intptr_to_pointer(args.handle), iovec); return ret; } int vtest_resource_unref(UNUSED uint32_t length_dw) { uint32_t res_unref_buf[VCMD_RES_UNREF_SIZE]; int ret; uint32_t handle; ret = vtest_block_read(renderer.in_fd, &res_unref_buf, sizeof(res_unref_buf)); if (ret != sizeof(res_unref_buf)) { return -1; } handle = res_unref_buf[VCMD_RES_UNREF_RES_HANDLE]; virgl_renderer_ctx_attach_resource(ctx_id, handle); virgl_renderer_resource_detach_iov(handle, NULL, NULL); util_hash_table_remove(renderer.iovec_hash, intptr_to_pointer(handle)); virgl_renderer_resource_unref(handle); return 0; } int vtest_submit_cmd(uint32_t length_dw) { uint32_t *cbuf; int ret; if (length_dw > UINT_MAX / 4) { return -1; } cbuf = malloc(length_dw * 4); if (!cbuf) { return -1; } ret = vtest_block_read(renderer.in_fd, cbuf, length_dw * 4); if (ret != (int)length_dw * 4) { free(cbuf); return -1; } virgl_renderer_submit_cmd(cbuf, ctx_id, length_dw); free(cbuf); return 0; } #define DECODE_TRANSFER \ do { \ handle = thdr_buf[VCMD_TRANSFER_RES_HANDLE]; \ level = thdr_buf[VCMD_TRANSFER_LEVEL]; \ stride = thdr_buf[VCMD_TRANSFER_STRIDE]; \ layer_stride = thdr_buf[VCMD_TRANSFER_LAYER_STRIDE]; \ box.x = thdr_buf[VCMD_TRANSFER_X]; \ box.y = thdr_buf[VCMD_TRANSFER_Y]; \ box.z = thdr_buf[VCMD_TRANSFER_Z]; \ box.w = thdr_buf[VCMD_TRANSFER_WIDTH]; \ box.h = thdr_buf[VCMD_TRANSFER_HEIGHT]; \ box.d = thdr_buf[VCMD_TRANSFER_DEPTH]; \ data_size = thdr_buf[VCMD_TRANSFER_DATA_SIZE]; \ } while(0) int vtest_transfer_get(UNUSED uint32_t length_dw) { uint32_t thdr_buf[VCMD_TRANSFER_HDR_SIZE]; int ret; int level; uint32_t stride, layer_stride, handle; struct virgl_box box; uint32_t data_size; void *ptr; struct iovec iovec; ret = vtest_block_read(renderer.in_fd, thdr_buf, VCMD_TRANSFER_HDR_SIZE * 4); if (ret != VCMD_TRANSFER_HDR_SIZE * 4) { return ret; } DECODE_TRANSFER; ptr = malloc(data_size); if (!ptr) { return -ENOMEM; } iovec.iov_len = data_size; iovec.iov_base = ptr; ret = virgl_renderer_transfer_read_iov(handle, ctx_id, level, stride, layer_stride, &box, 0, &iovec, 1); if (ret) { fprintf(stderr," transfer read failed %d\n", ret); } ret = vtest_block_write(renderer.out_fd, ptr, data_size); free(ptr); return ret < 0 ? ret : 0; } int vtest_transfer_put(UNUSED uint32_t length_dw) { uint32_t thdr_buf[VCMD_TRANSFER_HDR_SIZE]; int ret; int level; uint32_t stride, layer_stride, handle; struct virgl_box box; uint32_t data_size; void *ptr; struct iovec iovec; ret = vtest_block_read(renderer.in_fd, thdr_buf, VCMD_TRANSFER_HDR_SIZE * 4); if (ret != VCMD_TRANSFER_HDR_SIZE * 4) { return ret; } DECODE_TRANSFER; ptr = malloc(data_size); if (!ptr) { return -ENOMEM; } ret = vtest_block_read(renderer.in_fd, ptr, data_size); if (ret < 0) { return ret; } iovec.iov_len = data_size; iovec.iov_base = ptr; ret = virgl_renderer_transfer_write_iov(handle, ctx_id, level, stride, layer_stride, &box, 0, &iovec, 1); if (ret) { fprintf(stderr," transfer write failed %d\n", ret); } free(ptr); return 0; } #define DECODE_TRANSFER2 \ do { \ handle = thdr_buf[VCMD_TRANSFER2_RES_HANDLE]; \ level = thdr_buf[VCMD_TRANSFER2_LEVEL]; \ box.x = thdr_buf[VCMD_TRANSFER2_X]; \ box.y = thdr_buf[VCMD_TRANSFER2_Y]; \ box.z = thdr_buf[VCMD_TRANSFER2_Z]; \ box.w = thdr_buf[VCMD_TRANSFER2_WIDTH]; \ box.h = thdr_buf[VCMD_TRANSFER2_HEIGHT]; \ box.d = thdr_buf[VCMD_TRANSFER2_DEPTH]; \ data_size = thdr_buf[VCMD_TRANSFER2_DATA_SIZE]; \ offset = thdr_buf[VCMD_TRANSFER2_OFFSET]; \ } while(0) int vtest_transfer_get2(UNUSED uint32_t length_dw) { uint32_t thdr_buf[VCMD_TRANSFER2_HDR_SIZE]; int ret; int level; uint32_t handle; struct virgl_box box; uint32_t data_size; uint32_t offset; uint32_t extra_data = 0; struct iovec *iovec; ret = vtest_block_read(renderer.in_fd, thdr_buf, sizeof(thdr_buf)); if (ret != sizeof(thdr_buf)) { return ret; } DECODE_TRANSFER2; iovec = util_hash_table_get(renderer.iovec_hash, intptr_to_pointer(handle)); if (!iovec) { return report_failed_call("util_hash_table_get", -ESRCH); } if (offset >= iovec->iov_len) { return report_failure("offset larger then length of backing store", -EFAULT); } ret = virgl_renderer_transfer_read_iov(handle, ctx_id, level, 0, 0, &box, offset, NULL, 0); if (ret) { return report_failed_call("virgl_renderer_transfer_read_iov", ret); } /* Make sure we don't read out of bounds. */ if (data_size > (iovec->iov_len - offset)) { extra_data = data_size - (iovec->iov_len - offset); data_size -= extra_data; } ret = vtest_block_write(renderer.out_fd, iovec->iov_base + offset, data_size); if (ret < 0) { return report_failed_call("vtest_block_write", ret); } if (extra_data) { ret = vtest_block_write_zero(renderer.out_fd, extra_data); if (ret < 0) { return report_failed_call("vtest_block_write_zero", ret); } } return ret < 0 ? ret : 0; } int vtest_transfer_put2(UNUSED uint32_t length_dw) { uint32_t thdr_buf[VCMD_TRANSFER2_HDR_SIZE]; int ret; int level; uint32_t handle; struct virgl_box box; uint32_t data_size; uint32_t offset; struct iovec *iovec; ret = vtest_block_read(renderer.in_fd, thdr_buf, sizeof(thdr_buf)); if (ret != sizeof(thdr_buf)) { return ret; } DECODE_TRANSFER2; iovec = util_hash_table_get(renderer.iovec_hash, intptr_to_pointer(handle)); if (!iovec) { return report_failed_call("util_hash_table_get", -ESRCH); } ret = vtest_block_read(renderer.in_fd, iovec->iov_base + offset, data_size); if (ret < 0) { return report_failed_call("vtest_block_read", ret); } ret = virgl_renderer_transfer_write_iov(handle, ctx_id, level, 0, 0, &box, offset, NULL, 0); if (ret) { return report_failed_call("virgl_renderer_transfer_write_iov", ret); } return 0; } int vtest_resource_busy_wait(UNUSED uint32_t length_dw) { uint32_t bw_buf[VCMD_BUSY_WAIT_SIZE]; int ret, fd; int flags; uint32_t hdr_buf[VTEST_HDR_SIZE]; uint32_t reply_buf[1]; bool busy = false; ret = vtest_block_read(renderer.in_fd, &bw_buf, sizeof(bw_buf)); if (ret != sizeof(bw_buf)) { return -1; } /* handle = bw_buf[VCMD_BUSY_WAIT_HANDLE]; unused as of now */ flags = bw_buf[VCMD_BUSY_WAIT_FLAGS]; if (flags == VCMD_BUSY_WAIT_FLAG_WAIT) { do { if (last_fence == (fence_id - 1)) { break; } fd = virgl_renderer_get_poll_fd(); if (fd != -1) { vtest_wait_for_fd_read(fd); } virgl_renderer_poll(); } while (1); busy = false; } else { busy = last_fence != (fence_id - 1); } hdr_buf[VTEST_CMD_LEN] = 1; hdr_buf[VTEST_CMD_ID] = VCMD_RESOURCE_BUSY_WAIT; reply_buf[0] = busy ? 1 : 0; ret = vtest_block_write(renderer.out_fd, hdr_buf, sizeof(hdr_buf)); if (ret < 0) { return ret; } ret = vtest_block_write(renderer.out_fd, reply_buf, sizeof(reply_buf)); if (ret < 0) { return ret; } return 0; } int vtest_renderer_create_fence(void) { virgl_renderer_create_fence(fence_id++, ctx_id); return 0; } int vtest_poll(void) { virgl_renderer_poll(); return 0; }