/* * Copyright (C) 2018 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "VirtioGpuStream.h" #include #include #include #include #include #include #include #ifndef PAGE_SIZE #define PAGE_SIZE 0x1000 #endif // In a virtual machine, there should only be one GPU #define RENDERNODE_MINOR 128 // Maximum size of readback / response buffer in bytes #define MAX_CMDRESPBUF_SIZE (10*PAGE_SIZE) // Attributes use to allocate our response buffer // Similar to virgl's fence objects #define PIPE_BUFFER 0 #define VIRGL_FORMAT_R8_UNORM 64 #define VIRGL_BIND_CUSTOM (1 << 17) // Conservative; see virgl_winsys.h #define VIRGL_MAX_CMDBUF_DWORDS (16*1024) #define VIRGL_MAX_CMDBUF_SIZE (4*VIRGL_MAX_CMDBUF_DWORDS) struct VirtioGpuCmd { uint32_t op; uint32_t cmdSize; unsigned char buf[0]; } __attribute__((packed)); uint32_t CrosGralloc::getHostHandle(native_handle_t const* handle_) { uint32_t id = 0; if (m_fd >= 0) { cros_gralloc_handle const* handle = reinterpret_cast(handle_); drmPrimeFDToHandle(m_fd, handle->fds[0], &id); } return id; } int CrosGralloc::getFormat(native_handle_t const* handle) { return ((cros_gralloc_handle *)handle)->droid_format; } bool VirtioGpuProcessPipe::processPipeInit(renderControl_encoder_context_t *rcEnc) { union { uint64_t proto; struct { int pid; int tid; } id; } puid = { .id.pid = getpid(), .id.tid = gettid(), }; rcEnc->rcSetPuid(rcEnc, puid.proto); return true; } VirtioGpuStream::VirtioGpuStream(size_t bufSize) : IOStream(0U), m_fd(-1), m_bufSize(bufSize), m_buf(nullptr), m_cmdResp_rh(0U), m_cmdResp_bo(0U), m_cmdResp(nullptr), m_cmdRespPos(0U), m_cmdPos(0U), m_flushPos(0U), m_allocSize(0U), m_allocFlushSize(0U) { } VirtioGpuStream::~VirtioGpuStream() { if (m_cmdResp) { munmap(m_cmdResp, MAX_CMDRESPBUF_SIZE); } if (m_cmdResp_bo > 0U) { drm_gem_close gem_close = { .handle = m_cmdResp_bo, }; drmIoctl(m_fd, DRM_IOCTL_GEM_CLOSE, &gem_close); } if (m_fd >= 0) { close(m_fd); } free(m_buf); } int VirtioGpuStream::connect() { if (m_fd < 0) { m_fd = drmOpenRender(RENDERNODE_MINOR); if (m_fd < 0) { ERR("%s: failed with fd %d (%s)", __func__, m_fd, strerror(errno)); return -1; } } if (!m_cmdResp_bo) { drm_virtgpu_resource_create create = { .target = PIPE_BUFFER, .format = VIRGL_FORMAT_R8_UNORM, .bind = VIRGL_BIND_CUSTOM, .width = MAX_CMDRESPBUF_SIZE, .height = 1U, .depth = 1U, .array_size = 0U, .size = MAX_CMDRESPBUF_SIZE, .stride = MAX_CMDRESPBUF_SIZE, }; int ret = drmIoctl(m_fd, DRM_IOCTL_VIRTGPU_RESOURCE_CREATE, &create); if (ret) { ERR("%s: failed with %d allocating command response buffer (%s)", __func__, ret, strerror(errno)); return -1; } m_cmdResp_bo = create.bo_handle; if (!m_cmdResp_bo) { ERR("%s: no handle when allocating command response buffer", __func__); return -1; } m_cmdResp_rh = create.res_handle; if (create.size != MAX_CMDRESPBUF_SIZE) { ERR("%s: command response buffer wrongly sized, create.size=%zu " "!= %zu", __func__, static_cast(create.size), static_cast(MAX_CMDRESPBUF_SIZE)); abort(); } } if (!m_cmdResp) { drm_virtgpu_map map = { .handle = m_cmdResp_bo, }; int ret = drmIoctl(m_fd, DRM_IOCTL_VIRTGPU_MAP, &map); if (ret) { ERR("%s: failed with %d mapping command response buffer (%s)", __func__, ret, strerror(errno)); return -1; } m_cmdResp = static_cast(mmap64(nullptr, MAX_CMDRESPBUF_SIZE, PROT_READ, MAP_SHARED, m_fd, map.offset)); if (m_cmdResp == MAP_FAILED) { ERR("%s: failed with %d mmap'ing command response buffer (%s)", __func__, ret, strerror(errno)); return -1; } } m_gralloc.setFd(m_fd); return 0; } int VirtioGpuStream::flush() { int ret = commitBuffer(m_allocSize - m_allocFlushSize); if (ret) return ret; m_allocFlushSize = m_allocSize; return 0; } void *VirtioGpuStream::allocBuffer(size_t minSize) { if (m_buf) { // Try to model the alloc() calls being made by the user. They should be // obeying the protocol and using alloc() for anything they don't write // with writeFully(), so we can know if this alloc() is for part of a // command, or not. If it is not for part of a command, we are starting // a new command, and should increment m_cmdPos. VirtioGpuCmd *cmd = reinterpret_cast(&m_buf[m_cmdPos]); if (m_allocSize + minSize > cmd->cmdSize) { m_allocFlushSize = 0U; m_allocSize = 0U; // This might also be a convenient point to flush commands if (m_cmdPos + cmd->cmdSize + minSize > m_bufSize) { if (commitAll() < 0) { ERR("%s: command flush failed", __func__); m_flushPos = 0U; m_bufSize = 0U; m_cmdPos = 0U; free(m_buf); m_buf = nullptr; return nullptr; } } else { m_cmdPos += cmd->cmdSize; m_flushPos = m_cmdPos; } } } // Update m_allocSize here, before minSize is tampered with below m_allocSize += minSize; // Make sure anything we already have written to the buffer is retained minSize += m_flushPos; size_t allocSize = (m_bufSize < minSize ? minSize : m_bufSize); if (!m_buf) { m_buf = static_cast(malloc(allocSize)); } else if (m_bufSize < allocSize) { unsigned char *p = static_cast(realloc(m_buf, allocSize)); if (!p) { free(m_buf); } m_buf = p; } if (!m_buf) { ERR("%s: alloc (%zu) failed\n", __func__, allocSize); m_allocFlushSize = 0U; m_allocSize = 0U; m_flushPos = 0U; m_bufSize = 0U; m_cmdPos = 0U; } else { m_bufSize = allocSize; } if (m_flushPos == 0 && m_cmdPos == 0) { // During initialization, HostConnection will send an empty command // packet to check the connection is good, but it doesn't obey the usual // line protocol. This is a 4 byte write to [0], which is our 'op' field, // and we don't have an op=0 so it's OK. We fake up a valid length, and // overload this workaround by putting the res_handle for the readback // buffer in the command payload, patched in just before we submit. VirtioGpuCmd *cmd = reinterpret_cast(&m_buf[m_cmdPos]); cmd->op = 0U; cmd->cmdSize = sizeof(*cmd) + sizeof(__u32); } return m_buf + m_cmdPos; } // For us, writeFully() means to write a command without any header, directly // into the buffer stream. We can use the packet frame written directly to the // stream to verify this write is within bounds, then update the counter. int VirtioGpuStream::writeFully(const void *buf, size_t len) { if (!valid()) return -1; if (!buf) { if (len > 0) { // If len is non-zero, buf must not be NULL. Otherwise the pipe would // be in a corrupted state, which is lethal for the emulator. ERR("%s: failed, buf=NULL, len %zu, lethal error, exiting", __func__, len); abort(); } return 0; } VirtioGpuCmd *cmd = reinterpret_cast(&m_buf[m_cmdPos]); if (m_flushPos < sizeof(*cmd)) { ERR("%s: writeFully len %zu would overwrite command header, " "cmd_pos=%zu, flush_pos=%zu, lethal error, exiting", __func__, len, m_cmdPos, m_flushPos); abort(); } if (m_flushPos + len > cmd->cmdSize) { ERR("%s: writeFully len %zu would overflow the command bounds, " "cmd_pos=%zu, flush_pos=%zu, cmdsize=%zu, lethal error, exiting", __func__, len, m_cmdPos, m_flushPos, cmd->cmdSize); abort(); } if (len > VIRGL_MAX_CMDBUF_SIZE) { ERR("%s: Large command (%zu bytes) exceeds virgl limits", __func__, len); /* Fall through */ } memcpy(&m_buf[m_flushPos], buf, len); commitBuffer(len); m_allocSize += len; return 0; } const unsigned char *VirtioGpuStream::readFully(void *buf, size_t len) { if (!valid()) return nullptr; if (!buf) { if (len > 0) { // If len is non-zero, buf must not be NULL. Otherwise the pipe would // be in a corrupted state, which is lethal for the emulator. ERR("%s: failed, buf=NULL, len %zu, lethal error, exiting.", __func__, len); abort(); } return nullptr; } // Read is too big for current architecture if (len > MAX_CMDRESPBUF_SIZE - sizeof(*m_cmdResp)) { ERR("%s: failed, read too large, len %zu, lethal error, exiting.", __func__, len); abort(); } // Commit all outstanding write commands (if any) if (commitAll() < 0) { ERR("%s: command flush failed", __func__); return nullptr; } if (len > 0U && m_cmdRespPos == 0U) { // When we are about to read for the first time, wait for the virtqueue // to drain to this command, otherwise the data could be stale drm_virtgpu_3d_wait wait = { .handle = m_cmdResp_bo, }; int ret = drmIoctl(m_fd, DRM_IOCTL_VIRTGPU_WAIT, &wait); if (ret) { ERR("%s: failed with %d waiting for response buffer (%s)", __func__, ret, strerror(errno)); // Fall through, hope for the best } } // Most likely a protocol implementation error if (m_cmdResp->cmdSize - sizeof(*m_cmdResp) < m_cmdRespPos + len) { ERR("%s: failed, op %zu, len %zu, cmdSize %zu, pos %zu, lethal " "error, exiting.", __func__, m_cmdResp->op, len, m_cmdResp->cmdSize, m_cmdRespPos); abort(); } memcpy(buf, &m_cmdResp->buf[m_cmdRespPos], len); if (m_cmdRespPos + len == m_cmdResp->cmdSize - sizeof(*m_cmdResp)) { m_cmdRespPos = 0U; } else { m_cmdRespPos += len; } return reinterpret_cast(buf); } int VirtioGpuStream::commitBuffer(size_t size) { if (m_flushPos + size > m_bufSize) { ERR("%s: illegal commit size %zu, flushPos %zu, bufSize %zu", __func__, size, m_flushPos, m_bufSize); return -1; } m_flushPos += size; return 0; } int VirtioGpuStream::commitAll() { size_t pos = 0U, numFlushed = 0U; while (pos < m_flushPos) { VirtioGpuCmd *cmd = reinterpret_cast(&m_buf[pos]); // Should never happen if (pos + cmd->cmdSize > m_bufSize) { ERR("%s: failed, pos %zu, cmdSize %zu, bufSize %zu, lethal " "error, exiting.", __func__, pos, cmd->cmdSize, m_bufSize); abort(); } // Saw dummy command; patch it with res handle if (cmd->op == 0) { *(uint32_t *)cmd->buf = m_cmdResp_rh; } // Flush a single command drm_virtgpu_execbuffer execbuffer = { .size = cmd->cmdSize, .command = reinterpret_cast<__u64>(cmd), .bo_handles = reinterpret_cast<__u64>(&m_cmdResp_bo), .num_bo_handles = 1U, }; int ret = drmIoctl(m_fd, DRM_IOCTL_VIRTGPU_EXECBUFFER, &execbuffer); if (ret) { ERR("%s: failed with %d executing command buffer (%s)", __func__, ret, strerror(errno)); return -1; } pos += cmd->cmdSize; numFlushed++; } if (pos > m_flushPos) { ERR("%s: aliasing, flushPos %zu, pos %zu, probably ok", __func__, m_flushPos, pos); /* Fall through */ } m_flushPos = 0U; m_cmdPos = 0U; return 0; }