/* * Copyright (C) 2018 The Android Open Source Project * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in * the documentation and/or other materials provided with the * distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE * COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #include "fastboot_driver.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "constants.h" #include "transport.h" using android::base::StringPrintf; namespace fastboot { /*************************** PUBLIC *******************************/ FastBootDriver::FastBootDriver(Transport* transport, DriverCallbacks driver_callbacks, bool no_checks) : transport_(transport), prolog_(std::move(driver_callbacks.prolog)), epilog_(std::move(driver_callbacks.epilog)), info_(std::move(driver_callbacks.info)), disable_checks_(no_checks) {} FastBootDriver::~FastBootDriver() { } RetCode FastBootDriver::Boot(std::string* response, std::vector* info) { return RawCommand(FB_CMD_BOOT, "Booting", response, info); } RetCode FastBootDriver::Continue(std::string* response, std::vector* info) { return RawCommand(FB_CMD_CONTINUE, "Resuming boot", response, info); } RetCode FastBootDriver::CreatePartition(const std::string& partition, const std::string& size) { return RawCommand(FB_CMD_CREATE_PARTITION ":" + partition + ":" + size, "Creating '" + partition + "'"); } RetCode FastBootDriver::DeletePartition(const std::string& partition) { return RawCommand(FB_CMD_DELETE_PARTITION ":" + partition, "Deleting '" + partition + "'"); } RetCode FastBootDriver::Erase(const std::string& partition, std::string* response, std::vector* info) { return RawCommand(FB_CMD_ERASE ":" + partition, "Erasing '" + partition + "'", response, info); } RetCode FastBootDriver::Flash(const std::string& partition, std::string* response, std::vector* info) { return RawCommand(FB_CMD_FLASH ":" + partition, "Writing '" + partition + "'", response, info); } RetCode FastBootDriver::GetVar(const std::string& key, std::string* val, std::vector* info) { return RawCommand(FB_CMD_GETVAR ":" + key, val, info); } RetCode FastBootDriver::GetVarAll(std::vector* response) { std::string tmp; return GetVar("all", &tmp, response); } RetCode FastBootDriver::Reboot(std::string* response, std::vector* info) { return RawCommand(FB_CMD_REBOOT, "Rebooting", response, info); } RetCode FastBootDriver::RebootTo(std::string target, std::string* response, std::vector* info) { return RawCommand("reboot-" + target, "Rebooting into " + target, response, info); } RetCode FastBootDriver::ResizePartition(const std::string& partition, const std::string& size) { return RawCommand(FB_CMD_RESIZE_PARTITION ":" + partition + ":" + size, "Resizing '" + partition + "'"); } RetCode FastBootDriver::SetActive(const std::string& slot, std::string* response, std::vector* info) { return RawCommand(FB_CMD_SET_ACTIVE ":" + slot, "Setting current slot to '" + slot + "'", response, info); } RetCode FastBootDriver::FlashPartition(const std::string& partition, const std::vector& data) { RetCode ret; if ((ret = Download(partition, data))) { return ret; } return Flash(partition); } RetCode FastBootDriver::FlashPartition(const std::string& partition, int fd, uint32_t size) { RetCode ret; if ((ret = Download(partition, fd, size))) { return ret; } return Flash(partition); } RetCode FastBootDriver::FlashPartition(const std::string& partition, sparse_file* s, uint32_t size, size_t current, size_t total) { RetCode ret; if ((ret = Download(partition, s, size, current, total, false))) { return ret; } return Flash(partition); } RetCode FastBootDriver::Partitions(std::vector>* partitions) { std::vector all; RetCode ret; if ((ret = GetVarAll(&all))) { return ret; } std::regex reg("partition-size[[:s:]]*:[[:s:]]*([[:w:]]+)[[:s:]]*:[[:s:]]*0x([[:xdigit:]]+)"); std::smatch sm; for (auto& s : all) { if (std::regex_match(s, sm, reg)) { std::string m1(sm[1]); std::string m2(sm[2]); uint64_t tmp = strtoll(m2.c_str(), 0, 16); partitions->push_back(std::make_tuple(m1, tmp)); } } return SUCCESS; } RetCode FastBootDriver::Download(const std::string& name, int fd, size_t size, std::string* response, std::vector* info) { prolog_(StringPrintf("Sending '%s' (%zu KB)", name.c_str(), size / 1024)); auto result = Download(fd, size, response, info); epilog_(result); return result; } RetCode FastBootDriver::Download(int fd, size_t size, std::string* response, std::vector* info) { RetCode ret; if ((size <= 0 || size > MAX_DOWNLOAD_SIZE) && !disable_checks_) { error_ = "File is too large to download"; return BAD_ARG; } uint32_t u32size = static_cast(size); if ((ret = DownloadCommand(u32size, response, info))) { return ret; } // Write the buffer if ((ret = SendBuffer(fd, size))) { return ret; } // Wait for response return HandleResponse(response, info); } RetCode FastBootDriver::Download(const std::string& name, const std::vector& buf, std::string* response, std::vector* info) { prolog_(StringPrintf("Sending '%s' (%zu KB)", name.c_str(), buf.size() / 1024)); auto result = Download(buf, response, info); epilog_(result); return result; } RetCode FastBootDriver::Download(const std::vector& buf, std::string* response, std::vector* info) { RetCode ret; error_ = ""; if ((buf.size() == 0 || buf.size() > MAX_DOWNLOAD_SIZE) && !disable_checks_) { error_ = "Buffer is too large or 0 bytes"; return BAD_ARG; } if ((ret = DownloadCommand(buf.size(), response, info))) { return ret; } // Write the buffer if ((ret = SendBuffer(buf))) { return ret; } // Wait for response return HandleResponse(response, info); } RetCode FastBootDriver::Download(const std::string& partition, struct sparse_file* s, uint32_t size, size_t current, size_t total, bool use_crc, std::string* response, std::vector* info) { prolog_(StringPrintf("Sending sparse '%s' %zu/%zu (%u KB)", partition.c_str(), current, total, size / 1024)); auto result = Download(s, use_crc, response, info); epilog_(result); return result; } RetCode FastBootDriver::Download(sparse_file* s, bool use_crc, std::string* response, std::vector* info) { error_ = ""; int64_t size = sparse_file_len(s, true, use_crc); if (size <= 0 || size > MAX_DOWNLOAD_SIZE) { error_ = "Sparse file is too large or invalid"; return BAD_ARG; } RetCode ret; uint32_t u32size = static_cast(size); if ((ret = DownloadCommand(u32size, response, info))) { return ret; } struct SparseCBPrivate { FastBootDriver* self; std::vector tpbuf; } cb_priv; cb_priv.self = this; auto cb = [](void* priv, const void* buf, size_t len) -> int { SparseCBPrivate* data = static_cast(priv); const char* cbuf = static_cast(buf); return data->self->SparseWriteCallback(data->tpbuf, cbuf, len); }; if (sparse_file_callback(s, true, use_crc, cb, &cb_priv) < 0) { error_ = "Error reading sparse file"; return IO_ERROR; } // Now flush if (cb_priv.tpbuf.size() && (ret = SendBuffer(cb_priv.tpbuf))) { return ret; } return HandleResponse(response, info); } RetCode FastBootDriver::Upload(const std::string& outfile, std::string* response, std::vector* info) { prolog_("Uploading '" + outfile + "'"); auto result = UploadInner(outfile, response, info); epilog_(result); return result; } RetCode FastBootDriver::UploadInner(const std::string& outfile, std::string* response, std::vector* info) { RetCode ret; int dsize; if ((ret = RawCommand(FB_CMD_UPLOAD, response, info, &dsize))) { error_ = "Upload request failed: " + error_; return ret; } if (!dsize) { error_ = "Upload request failed, device reports 0 bytes available"; return BAD_DEV_RESP; } std::vector data; data.resize(dsize); if ((ret = ReadBuffer(data))) { return ret; } std::ofstream ofs; ofs.open(outfile, std::ofstream::out | std::ofstream::binary); if (ofs.fail()) { error_ = android::base::StringPrintf("Failed to open '%s'", outfile.c_str()); return IO_ERROR; } ofs.write(data.data(), data.size()); if (ofs.fail() || ofs.bad()) { error_ = android::base::StringPrintf("Writing to '%s' failed", outfile.c_str()); return IO_ERROR; } ofs.close(); return HandleResponse(response, info); } // Helpers void FastBootDriver::SetInfoCallback(std::function info) { info_ = info; } const std::string FastBootDriver::RCString(RetCode rc) { switch (rc) { case SUCCESS: return std::string("Success"); case BAD_ARG: return std::string("Invalid Argument"); case IO_ERROR: return std::string("I/O Error"); case BAD_DEV_RESP: return std::string("Invalid Device Response"); case DEVICE_FAIL: return std::string("Device Error"); case TIMEOUT: return std::string("Timeout"); default: return std::string("Unknown Error"); } } std::string FastBootDriver::Error() { return error_; } RetCode FastBootDriver::WaitForDisconnect() { return transport_->WaitForDisconnect() ? IO_ERROR : SUCCESS; } /****************************** PROTECTED *************************************/ RetCode FastBootDriver::RawCommand(const std::string& cmd, const std::string& message, std::string* response, std::vector* info, int* dsize) { prolog_(message); auto result = RawCommand(cmd, response, info, dsize); epilog_(result); return result; } RetCode FastBootDriver::RawCommand(const std::string& cmd, std::string* response, std::vector* info, int* dsize) { error_ = ""; // Clear any pending error if (cmd.size() > FB_COMMAND_SZ && !disable_checks_) { error_ = "Command length to RawCommand() is too long"; return BAD_ARG; } if (transport_->Write(cmd.c_str(), cmd.size()) != static_cast(cmd.size())) { error_ = ErrnoStr("Write to device failed"); return IO_ERROR; } // Read the response return HandleResponse(response, info, dsize); } RetCode FastBootDriver::DownloadCommand(uint32_t size, std::string* response, std::vector* info) { std::string cmd(android::base::StringPrintf("%s:%08" PRIx32, FB_CMD_DOWNLOAD, size)); RetCode ret; if ((ret = RawCommand(cmd, response, info))) { return ret; } return SUCCESS; } RetCode FastBootDriver::HandleResponse(std::string* response, std::vector* info, int* dsize) { char status[FB_RESPONSE_SZ + 1]; auto start = std::chrono::system_clock::now(); auto set_response = [response](std::string s) { if (response) *response = std::move(s); }; auto add_info = [info](std::string s) { if (info) info->push_back(std::move(s)); }; // erase response set_response(""); while ((std::chrono::system_clock::now() - start) < std::chrono::seconds(RESP_TIMEOUT)) { int r = transport_->Read(status, FB_RESPONSE_SZ); if (r < 0) { error_ = ErrnoStr("Status read failed"); return IO_ERROR; } status[r] = '\0'; // Need the null terminator std::string input(status); if (android::base::StartsWith(input, "INFO")) { std::string tmp = input.substr(strlen("INFO")); info_(tmp); add_info(std::move(tmp)); } else if (android::base::StartsWith(input, "OKAY")) { set_response(input.substr(strlen("OKAY"))); return SUCCESS; } else if (android::base::StartsWith(input, "FAIL")) { error_ = android::base::StringPrintf("remote: '%s'", status + strlen("FAIL")); set_response(input.substr(strlen("FAIL"))); return DEVICE_FAIL; } else if (android::base::StartsWith(input, "DATA")) { std::string tmp = input.substr(strlen("DATA")); uint32_t num = strtol(tmp.c_str(), 0, 16); if (num > MAX_DOWNLOAD_SIZE) { error_ = android::base::StringPrintf("Data size too large (%d)", num); return BAD_DEV_RESP; } if (dsize) *dsize = num; set_response(std::move(tmp)); return SUCCESS; } else { error_ = android::base::StringPrintf("Device sent unknown status code: %s", status); return BAD_DEV_RESP; } } // End of while loop return TIMEOUT; } std::string FastBootDriver::ErrnoStr(const std::string& msg) { return android::base::StringPrintf("%s (%s)", msg.c_str(), strerror(errno)); } /******************************* PRIVATE **************************************/ RetCode FastBootDriver::SendBuffer(int fd, size_t size) { static constexpr uint32_t MAX_MAP_SIZE = 512 * 1024 * 1024; off64_t offset = 0; uint32_t remaining = size; RetCode ret; while (remaining) { // Memory map the file size_t len = std::min(remaining, MAX_MAP_SIZE); auto mapping{android::base::MappedFile::FromFd(fd, offset, len, PROT_READ)}; if (!mapping) { error_ = "Creating filemap failed"; return IO_ERROR; } if ((ret = SendBuffer(mapping->data(), mapping->size()))) { return ret; } remaining -= len; offset += len; } return SUCCESS; } RetCode FastBootDriver::SendBuffer(const std::vector& buf) { // Write the buffer return SendBuffer(buf.data(), buf.size()); } RetCode FastBootDriver::SendBuffer(const void* buf, size_t size) { // ioctl on 0-length buffer causes freezing if (!size) { return BAD_ARG; } // Write the buffer ssize_t tmp = transport_->Write(buf, size); if (tmp < 0) { error_ = ErrnoStr("Write to device failed in SendBuffer()"); return IO_ERROR; } else if (static_cast(tmp) != size) { error_ = android::base::StringPrintf("Failed to write all %zu bytes", size); return IO_ERROR; } return SUCCESS; } RetCode FastBootDriver::ReadBuffer(std::vector& buf) { // Read the buffer return ReadBuffer(buf.data(), buf.size()); } RetCode FastBootDriver::ReadBuffer(void* buf, size_t size) { // Read the buffer ssize_t tmp = transport_->Read(buf, size); if (tmp < 0) { error_ = ErrnoStr("Read from device failed in ReadBuffer()"); return IO_ERROR; } else if (static_cast(tmp) != size) { error_ = android::base::StringPrintf("Failed to read all %zu bytes", size); return IO_ERROR; } return SUCCESS; } int FastBootDriver::SparseWriteCallback(std::vector& tpbuf, const char* data, size_t len) { size_t total = 0; size_t to_write = std::min(TRANSPORT_CHUNK_SIZE - tpbuf.size(), len); // Handle the residual tpbuf.insert(tpbuf.end(), data, data + to_write); if (tpbuf.size() < TRANSPORT_CHUNK_SIZE) { // Nothing enough to send rn return 0; } if (SendBuffer(tpbuf)) { error_ = ErrnoStr("Send failed in SparseWriteCallback()"); return -1; } tpbuf.clear(); total += to_write; // Now we need to send a multiple of chunk size size_t nchunks = (len - total) / TRANSPORT_CHUNK_SIZE; size_t nbytes = TRANSPORT_CHUNK_SIZE * nchunks; if (nbytes && SendBuffer(data + total, nbytes)) { // Don't send a ZLP error_ = ErrnoStr("Send failed in SparseWriteCallback()"); return -1; } total += nbytes; if (len - total > 0) { // We have residual data to save for next time tpbuf.assign(data + total, data + len); } return 0; } Transport* FastBootDriver::set_transport(Transport* transport) { std::swap(transport_, transport); return transport; } } // End namespace fastboot