// This file is part of Moonfire NVR, a security camera digital video recorder. // Copyright (C) 2016 Scott Lamb // // 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. // // In addition, as a special exception, the copyright holders give // permission to link the code of portions of this program with the // OpenSSL library under certain conditions as described in each // individual source file, and distribute linked combinations including // the two. // // You must obey the GNU General Public License in all respects for all // of the code used other than OpenSSL. If you modify file(s) with this // exception, you may extend this exception to your version of the // file(s), but you are not obligated to do so. If you do not wish to do // so, delete this exception statement from your version. If you delete // this exception statement from all source files in the program, then // also delete it here. // // 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 . /// Upgrades a version 0 schema to a version 1 schema. use db; use failure::Error; use recording; use rusqlite::{self, types::ToSql}; use std::collections::HashMap; pub fn run(_args: &super::Args, tx: &rusqlite::Transaction) -> Result<(), Error> { // These create statements match the schema.sql when version 1 was the latest. tx.execute_batch(r#" alter table camera rename to old_camera; create table camera ( id integer primary key, uuid blob unique, short_name text not null, description text, host text, username text, password text, main_rtsp_path text, sub_rtsp_path text, retain_bytes integer not null check (retain_bytes >= 0), next_recording_id integer not null check (next_recording_id >= 0) ); alter table recording rename to old_recording; drop index recording_cover; create table recording ( composite_id integer primary key, camera_id integer not null references camera (id), run_offset integer not null, flags integer not null, sample_file_bytes integer not null check (sample_file_bytes > 0), start_time_90k integer not null check (start_time_90k > 0), duration_90k integer not null check (duration_90k >= 0 and duration_90k < 5*60*90000), local_time_delta_90k integer not null, video_samples integer not null check (video_samples > 0), video_sync_samples integer not null check (video_samples > 0), video_sample_entry_id integer references video_sample_entry (id), check (composite_id >> 32 = camera_id) ); create index recording_cover on recording ( camera_id, start_time_90k, duration_90k, video_samples, video_sync_samples, video_sample_entry_id, sample_file_bytes, run_offset, flags ); create table recording_playback ( composite_id integer primary key references recording (composite_id), sample_file_uuid blob not null check (length(sample_file_uuid) = 16), sample_file_sha1 blob not null check (length(sample_file_sha1) = 20), video_index blob not null check (length(video_index) > 0) ); "#)?; let camera_state = fill_recording(tx).unwrap(); fill_camera(tx, camera_state).unwrap(); tx.execute_batch(r#" drop table old_camera; drop table old_recording; "#)?; Ok(()) } struct CameraState { /// tuple of (run_start_id, next_start_90k). current_run: Option<(i64, i64)>, /// As in the `next_recording_id` field of the `camera` table. next_recording_id: i32, } fn has_trailing_zero(video_index: &[u8]) -> Result { let mut it = recording::SampleIndexIterator::new(); while it.next(video_index)? {} Ok(it.duration_90k == 0) } /// Fills the `recording` and `recording_playback` tables from `old_recording`, returning /// the `camera_state` map for use by a following call to `fill_cameras`. fn fill_recording(tx: &rusqlite::Transaction) -> Result, Error> { let mut select = tx.prepare(r#" select camera_id, sample_file_bytes, start_time_90k, duration_90k, local_time_delta_90k, video_samples, video_sync_samples, video_sample_entry_id, sample_file_uuid, sample_file_sha1, video_index, id from old_recording "#)?; let mut insert1 = tx.prepare(r#" insert into recording values (:composite_id, :camera_id, :run_offset, :flags, :sample_file_bytes, :start_time_90k, :duration_90k, :local_time_delta_90k, :video_samples, :video_sync_samples, :video_sample_entry_id) "#)?; let mut insert2 = tx.prepare(r#" insert into recording_playback values (:composite_id, :sample_file_uuid, :sample_file_sha1, :video_index) "#)?; let mut rows = select.query(&[] as &[&ToSql])?; let mut camera_state: HashMap = HashMap::new(); while let Some(row) = rows.next() { let row = row?; let camera_id: i32 = row.get_checked(0)?; let camera_state = camera_state.entry(camera_id).or_insert_with(|| { CameraState{ current_run: None, next_recording_id: 1, } }); let composite_id = ((camera_id as i64) << 32) | (camera_state.next_recording_id as i64); camera_state.next_recording_id += 1; let sample_file_bytes: i32 = row.get_checked(1)?; let start_time_90k: i64 = row.get_checked(2)?; let duration_90k: i32 = row.get_checked(3)?; let local_time_delta_90k: i64 = row.get_checked(4)?; let video_samples: i32 = row.get_checked(5)?; let video_sync_samples: i32 = row.get_checked(6)?; let video_sample_entry_id: i32 = row.get_checked(7)?; let sample_file_uuid: db::FromSqlUuid = row.get_checked(8)?; let sample_file_sha1: Vec = row.get_checked(9)?; let video_index: Vec = row.get_checked(10)?; let old_id: i32 = row.get_checked(11)?; let trailing_zero = has_trailing_zero(&video_index).unwrap_or_else(|e| { warn!("recording {}/{} (sample file {}, formerly recording {}) has corrupt \ video_index: {}", camera_id, composite_id & 0xFFFF, sample_file_uuid.0, old_id, e); false }); let run_id = match camera_state.current_run { Some((run_id, expected_start)) if expected_start == start_time_90k => run_id, _ => composite_id, }; insert1.execute_named(&[ (":composite_id", &composite_id), (":camera_id", &camera_id), (":run_offset", &(composite_id - run_id)), (":flags", &(if trailing_zero { db::RecordingFlags::TrailingZero as i32 } else { 0 })), (":sample_file_bytes", &sample_file_bytes), (":start_time_90k", &start_time_90k), (":duration_90k", &duration_90k), (":local_time_delta_90k", &local_time_delta_90k), (":video_samples", &video_samples), (":video_sync_samples", &video_sync_samples), (":video_sample_entry_id", &video_sample_entry_id), ])?; insert2.execute_named(&[ (":composite_id", &composite_id), (":sample_file_uuid", &&sample_file_uuid.0.as_bytes()[..]), (":sample_file_sha1", &sample_file_sha1), (":video_index", &video_index), ])?; camera_state.current_run = if trailing_zero { None } else { Some((run_id, start_time_90k + duration_90k as i64)) }; } Ok(camera_state) } fn fill_camera(tx: &rusqlite::Transaction, camera_state: HashMap) -> Result<(), Error> { let mut select = tx.prepare(r#" select id, uuid, short_name, description, host, username, password, main_rtsp_path, sub_rtsp_path, retain_bytes from old_camera "#)?; let mut insert = tx.prepare(r#" insert into camera values (:id, :uuid, :short_name, :description, :host, :username, :password, :main_rtsp_path, :sub_rtsp_path, :retain_bytes, :next_recording_id) "#)?; let mut rows = select.query(&[] as &[&ToSql])?; while let Some(row) = rows.next() { let row = row?; let id: i32 = row.get_checked(0)?; let uuid: Vec = row.get_checked(1)?; let short_name: String = row.get_checked(2)?; let description: String = row.get_checked(3)?; let host: String = row.get_checked(4)?; let username: String = row.get_checked(5)?; let password: String = row.get_checked(6)?; let main_rtsp_path: String = row.get_checked(7)?; let sub_rtsp_path: String = row.get_checked(8)?; let retain_bytes: i64 = row.get_checked(9)?; insert.execute_named(&[ (":id", &id), (":uuid", &uuid), (":short_name", &short_name), (":description", &description), (":host", &host), (":username", &username), (":password", &password), (":main_rtsp_path", &main_rtsp_path), (":sub_rtsp_path", &sub_rtsp_path), (":retain_bytes", &retain_bytes), (":next_recording_id", &camera_state.get(&id).map(|s| s.next_recording_id).unwrap_or(1)), ])?; } Ok(()) }