/* GCS MAVLink functions related to FTP This program 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 Foundation, either version 3 of the License, or (at your option) any later version. This program 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 this program. If not, see . */ #include #include "GCS.h" #include #if HAVE_FILESYSTEM_SUPPORT extern const AP_HAL::HAL& hal; struct GCS_MAVLINK::ftp_state GCS_MAVLINK::ftp; bool GCS_MAVLINK::ftp_init(void) { // we can simply check if we allocated everything we need if (ftp.requests != nullptr) { return true; } ftp.requests = new ObjectBuffer(5); if (ftp.requests == nullptr) { goto failed; } ftp.replies = new ObjectBuffer(30); if (ftp.replies == nullptr) { goto failed; } if (!hal.scheduler->thread_create(FUNCTOR_BIND_MEMBER(&GCS_MAVLINK::ftp_worker, void), "FTP", 3072, AP_HAL::Scheduler::PRIORITY_IO, 0)) { goto failed; } return true; failed: delete ftp.requests; ftp.requests = nullptr; delete ftp.replies; ftp.replies = nullptr; return false; } void GCS_MAVLINK::handle_file_transfer_protocol(const mavlink_message_t &msg) { if (ftp_init()) { mavlink_file_transfer_protocol_t packet; mavlink_msg_file_transfer_protocol_decode(&msg, &packet); struct pending_ftp request; request.chan = chan; request.seq_number = *(uint16_t *)packet.payload; request.session = packet.payload[2]; request.opcode = static_cast(packet.payload[3]); request.size = packet.payload[4]; request.req_opcode = static_cast(packet.payload[5]); request.burst_complete = packet.payload[6]; request.offset = *(uint32_t *)(&packet.payload[8]); request.sysid = msg.sysid; request.compid = msg.compid; memcpy(request.data, &packet.payload[12], sizeof(packet.payload) - 12); if (!ftp.requests->push(request)) { // dropping the message, no buffer space to queue it in // we could NACK it, but that can lead to GCS confusion, so we're treating it like lost data } } } void GCS_MAVLINK::send_ftp_replies(void) { if (ftp.replies == nullptr) { return; } for (uint8_t i = 0; i < 20; i++) { if (!HAVE_PAYLOAD_SPACE(chan, FILE_TRANSFER_PROTOCOL)) { return; } if ((i > 0) && comm_get_txspace(chan) < (2 * (packet_overhead() + MAVLINK_MSG_ID_FILE_TRANSFER_PROTOCOL_LEN))) { // if this isn't the first packet we have to leave deadspace for the next message return; } struct pending_ftp reply; uint8_t payload[251] = {}; if (ftp.replies->peek(reply) && (reply.chan == chan)) { ((uint16_t *)payload)[0] = reply.seq_number; payload[2] = reply.session; payload[3] = static_cast(reply.opcode); payload[4] = reply.size; payload[5] = static_cast(reply.req_opcode); payload[6] = reply.burst_complete ? 1 : 0; *(uint32_t *)(&payload[8]) = reply.offset; memcpy(&payload[12], reply.data, sizeof(reply.data)); mavlink_msg_file_transfer_protocol_send( reply.chan, 0, reply.sysid, reply.compid, payload); ftp.replies->pop(reply); ftp.last_send_ms = AP_HAL::millis(); } else { return; } } } void GCS_MAVLINK::ftp_error(struct pending_ftp &response, FTP_ERROR error) { response.opcode = FTP_OP::Nack; response.data[0] = static_cast(error); response.size = 1; // FIXME: errno's are not thread-local as they should be on ChibiOS if (error == FTP_ERROR::FailErrno) { // translate the errno's that we have useful messages for switch (errno) { case EEXIST: response.data[0] = static_cast(FTP_ERROR::FileExists); break; case ENOENT: response.data[0] = static_cast(FTP_ERROR::FileNotFound); break; default: response.data[1] = static_cast(errno); response.size = 2; break; } } } // send our response back out to the system void GCS_MAVLINK::ftp_push_replies(pending_ftp &reply) { while (!ftp.replies->push(reply)) { // we must fit the response, keep shoving it in hal.scheduler->delay(2); } } void GCS_MAVLINK::ftp_worker(void) { pending_ftp request; pending_ftp reply = {}; reply.session = -1; // flag the reply as invalid for any reuse while (true) { while (!ftp.requests->pop(request)) { // nothing to handle, delay ourselves a bit then check again. Ideally we'd use conditional waits here hal.scheduler->delay(2); } // if it's a rerequest and we still have the last response then send it if ((request.sysid == reply.sysid) && (request.compid = reply.compid) && (request.session == reply.session) && (request.seq_number + 1 == reply.seq_number)) { ftp_push_replies(reply); continue; } // setup the response memset(&reply, 0, sizeof(reply)); reply.req_opcode = request.opcode; reply.session = request.session; reply.seq_number = request.seq_number + 1; reply.chan = request.chan; reply.sysid = request.sysid; reply.compid = request.compid; // sanity check the request size if (request.size > sizeof(request.data)) { ftp_error(reply, FTP_ERROR::InvalidDataSize); ftp_push_replies(reply); continue; } // check for session termination if (request.session != ftp.current_session && (request.opcode == FTP_OP::TerminateSession || request.opcode == FTP_OP::ResetSessions)) { // terminating a different session, just ack reply.opcode = FTP_OP::Ack; } else if (ftp.fd != -1 && request.session != ftp.current_session) { // if we have an open file and the session isn't right // then reject. This prevents IO on the wrong file ftp_error(reply, FTP_ERROR::InvalidSession); } else { // dispatch the command as needed switch (request.opcode) { case FTP_OP::None: reply.opcode = FTP_OP::Ack; break; case FTP_OP::TerminateSession: case FTP_OP::ResetSessions: // we already handled this, just listed for completeness if (ftp.fd != -1) { AP::FS().close(ftp.fd); ftp.fd = -1; } ftp.current_session = -1; reply.opcode = FTP_OP::Ack; break; case FTP_OP::ListDirectory: ftp_list_dir(request, reply); break; case FTP_OP::OpenFileRO: { // only allow one file to be open per session if (ftp.fd != -1) { ftp_error(reply, FTP_ERROR::Fail); break; } // sanity check that our the request looks well formed const size_t file_name_len = strnlen((char *)request.data, sizeof(request.data)); if ((file_name_len != request.size) || (request.size == 0)) { ftp_error(reply, FTP_ERROR::InvalidDataSize); break; } request.data[sizeof(request.data) - 1] = 0; // ensure the path is null terminated // get the file size struct stat st; if (AP::FS().stat((char *)request.data, &st)) { ftp_error(reply, FTP_ERROR::FailErrno); break; } const size_t file_size = st.st_size; // actually open the file ftp.fd = AP::FS().open((char *)request.data, 0); if (ftp.fd == -1) { ftp_error(reply, FTP_ERROR::FailErrno); break; } ftp.mode = FTP_FILE_MODE::Read; ftp.current_session = request.session; reply.opcode = FTP_OP::Ack; reply.size = sizeof(uint32_t); *((int32_t *)reply.data) = (int32_t)file_size; break; } case FTP_OP::ReadFile: { // must actually be working on a file if (ftp.fd == -1) { ftp_error(reply, FTP_ERROR::FileNotFound); break; } // must have the file in read mode if ((ftp.mode != FTP_FILE_MODE::Read)) { ftp_error(reply, FTP_ERROR::Fail); break; } // seek to requested offset if (AP::FS().lseek(ftp.fd, request.offset, SEEK_SET) == -1) { ftp_error(reply, FTP_ERROR::FailErrno); break; } // fill the buffer const ssize_t read_bytes = AP::FS().read(ftp.fd, reply.data, request.size); if (read_bytes == -1) { ftp_error(reply, FTP_ERROR::FailErrno); break; } if (read_bytes == 0) { ftp_error(reply, FTP_ERROR::EndOfFile); break; } reply.opcode = FTP_OP::Ack; reply.offset = request.offset; reply.size = (uint8_t)read_bytes; break; } case FTP_OP::Ack: case FTP_OP::Nack: // eat these, we just didn't expect them continue; break; case FTP_OP::OpenFileWO: case FTP_OP::CreateFile: { // only allow one file to be open per session if (ftp.fd != -1) { ftp_error(reply, FTP_ERROR::Fail); break; } // sanity check that our the request looks well formed const size_t file_name_len = strnlen((char *)request.data, sizeof(request.data)); if ((file_name_len != request.size) || (request.size == 0)) { ftp_error(reply, FTP_ERROR::InvalidDataSize); break; } request.data[sizeof(request.data) - 1] = 0; // ensure the path is null terminated // actually open the file ftp.fd = AP::FS().open((char *)request.data, (request.opcode == FTP_OP::CreateFile) ? O_WRONLY|O_CREAT|O_TRUNC : O_WRONLY); if (ftp.fd == -1) { ftp_error(reply, FTP_ERROR::FailErrno); break; } ftp.mode = FTP_FILE_MODE::Write; ftp.current_session = request.session; reply.opcode = FTP_OP::Ack; break; } case FTP_OP::WriteFile: { // must actually be working on a file if (ftp.fd == -1) { ftp_error(reply, FTP_ERROR::FileNotFound); break; } // must have the file in write mode if ((ftp.mode != FTP_FILE_MODE::Write)) { ftp_error(reply, FTP_ERROR::Fail); break; } // seek to requested offset if (AP::FS().lseek(ftp.fd, request.offset, SEEK_SET) == -1) { ftp_error(reply, FTP_ERROR::FailErrno); break; } // fill the buffer const ssize_t write_bytes = AP::FS().write(ftp.fd, request.data, request.size); if (write_bytes == -1) { ftp_error(reply, FTP_ERROR::FailErrno); break; } reply.opcode = FTP_OP::Ack; reply.offset = request.offset; break; } case FTP_OP::CreateDirectory: { // sanity check that our the request looks well formed const size_t file_name_len = strnlen((char *)request.data, sizeof(request.data)); if ((file_name_len != request.size) || (request.size == 0)) { ftp_error(reply, FTP_ERROR::InvalidDataSize); break; } request.data[sizeof(request.data) - 1] = 0; // ensure the path is null terminated // actually make the directory if (AP::FS().mkdir((char *)request.data) == -1) { ftp_error(reply, FTP_ERROR::FailErrno); break; } reply.opcode = FTP_OP::Ack; break; } case FTP_OP::RemoveDirectory: case FTP_OP::RemoveFile: { // sanity check that our the request looks well formed const size_t file_name_len = strnlen((char *)request.data, sizeof(request.data)); if ((file_name_len != request.size) || (request.size == 0)) { ftp_error(reply, FTP_ERROR::InvalidDataSize); break; } request.data[sizeof(request.data) - 1] = 0; // ensure the path is null terminated // remove the file/dir if (AP::FS().unlink((char *)request.data) == -1) { ftp_error(reply, FTP_ERROR::FailErrno); break; } reply.opcode = FTP_OP::Ack; break; } case FTP_OP::CalcFileCRC32: { // sanity check that our the request looks well formed const size_t file_name_len = strnlen((char *)request.data, sizeof(request.data)); if ((file_name_len != request.size) || (request.size == 0)) { ftp_error(reply, FTP_ERROR::InvalidDataSize); break; } request.data[sizeof(request.data) - 1] = 0; // ensure the path is null terminated // actually open the file int fd = AP::FS().open((char *)request.data, O_RDONLY); if (fd == -1) { ftp_error(reply, FTP_ERROR::FailErrno); break; } uint32_t checksum = 0; ssize_t read_size; do { read_size = AP::FS().read(fd, reply.data, sizeof(reply.data)); if (read_size == -1) { ftp_error(reply, FTP_ERROR::FailErrno); break; } checksum = crc_crc32(checksum, reply.data, MIN((size_t)read_size, sizeof(reply.data))); } while (read_size > 0); AP::FS().close(fd); // reset our scratch area so we don't leak data, and can leverage trimming memset(reply.data, 0, sizeof(reply.data)); reply.size = sizeof(uint32_t); ((uint32_t *)reply.data)[0] = checksum; reply.opcode = FTP_OP::Ack; break; } case FTP_OP::BurstReadFile: { const uint16_t max_read = (request.size == 0?sizeof(reply.data):request.size); // must actually be working on a file if (ftp.fd == -1) { ftp_error(reply, FTP_ERROR::FileNotFound); break; } // must have the file in read mode if ((ftp.mode != FTP_FILE_MODE::Read)) { ftp_error(reply, FTP_ERROR::Fail); break; } // seek to requested offset if (AP::FS().lseek(ftp.fd, request.offset, SEEK_SET) == -1) { ftp_error(reply, FTP_ERROR::FailErrno); break; } const uint32_t transfer_size = 100; for (uint32_t i = 0; (i < transfer_size); i++) { // fill the buffer const ssize_t read_bytes = AP::FS().read(ftp.fd, reply.data, max_read); if (read_bytes == -1) { ftp_error(reply, FTP_ERROR::FailErrno); break; } if (read_bytes != sizeof(reply.data)) { // don't send any old data memset(reply.data + read_bytes, 0, sizeof(reply.data) - read_bytes); } if (read_bytes == 0) { ftp_error(reply, FTP_ERROR::EndOfFile); break; } reply.opcode = FTP_OP::Ack; reply.offset = request.offset + i * max_read; reply.burst_complete = (i == (transfer_size - 1)); reply.size = (uint8_t)read_bytes; ftp_push_replies(reply); // prep the reply to be used again reply.seq_number++; } break; } case FTP_OP::TruncateFile: case FTP_OP::Rename: default: // this was bad data, just nack it gcs().send_text(MAV_SEVERITY_DEBUG, "Unsupported FTP: %d", static_cast(request.opcode)); ftp_error(reply, FTP_ERROR::Fail); break; } } ftp_push_replies(reply); continue; } } // calculates how much string length is needed to fit this in a list response int GCS_MAVLINK::gen_dir_entry(char *dest, size_t space, const char *path, const struct dirent * entry) { const bool is_file = entry->d_type == DT_REG; if (space < 3) { return -1; } dest[0] = 0; if (!is_file && entry->d_type != DT_DIR) { return -1; // this just forces it so we can't send this back, it's easier then sending skips to a GCS } if (is_file) { const size_t full_path_len = strlen(path) + strnlen(entry->d_name, 256); // FIXME: Really should do better then just hardcoding 256 char full_path[full_path_len + 2]; hal.util->snprintf(full_path, sizeof(full_path), "%s/%s", path, entry->d_name); struct stat st; if (AP::FS().stat(full_path, &st)) { return -1; } return hal.util->snprintf(dest, space, "F%s\t%u\0", entry->d_name, (unsigned)st.st_size); } else { return hal.util->snprintf(dest, space, "D%s\0", entry->d_name); } } // list the contents of a directory, skip the offset number of entries before providing data void GCS_MAVLINK::ftp_list_dir(struct pending_ftp &request, struct pending_ftp &response) { response.offset = request.offset; // this should be set for any failure condition for debugging const size_t directory_name_size = strnlen((char *)request.data, sizeof(request.data)); // sanity check that our the request looks well formed if ((directory_name_size != request.size) || (request.size == 0)) { ftp_error(response, FTP_ERROR::InvalidDataSize); return; } request.data[sizeof(request.data) - 1] = 0; // ensure the path is null terminated // open the dir auto *dir = AP::FS().opendir((char *)request.data); if (dir == nullptr) { ftp_error(response, FTP_ERROR::FailErrno); return; } // burn the entries we don't care about while (request.offset > 0) { const struct dirent *entry = AP::FS().readdir(dir); if(entry == nullptr) { ftp_error(response, FTP_ERROR::EndOfFile); AP::FS().closedir(dir); return; } // check how much space would be needed to emit the listing const int needed_space = gen_dir_entry((char *)response.data, sizeof(request.data), (char *)request.data, entry); if (needed_space < 0 || needed_space > (int)sizeof(request.data)) { continue; } request.offset--; } // start packing in entries that fit uint8_t index = 0; struct dirent *entry; while ((entry = AP::FS().readdir(dir))) { // figure out if we can fit the file const int required_space = gen_dir_entry((char *)(response.data + index), sizeof(response.data) - index, (char *)request.data, entry); // couldn't ever send this so drop it if (required_space < 0) { continue; } // can't fit it in this one, leave it for the next list to send if ((required_space + index) >= (int)sizeof(request.data)) { break; } // step the index forward and keep going index += required_space + 1; } if (index == 0) { ftp_error(response, FTP_ERROR::EndOfFile); AP::FS().closedir(dir); return; } // strip any bad temp data from our response as it can confuse a GCS, and defeats 0 trimming if (index < sizeof(response.data)) { memset(response.data + index, 0, MAX(0, (int)(sizeof(response.data)) - index)); } response.opcode = FTP_OP::Ack; response.size = index; AP::FS().closedir(dir); } #endif // HAVE_FILESYSTEM_SUPPORT