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315f3594c2
The Javascript is pretty amateurish I'm sure but at least it's something to iterate from. It's already much more pleasant for browsing through videos in several ways: * more responsive to load only a day at a time rather than 90+ days * much easier to see the same time segment on several cameras * more pleasant to have the videos load as a popup rather than a link that blows away your position in an enormous list * exposes the fancier .mp4 generation options: splitting at lengths other than the default, trimming to an arbitrary start and end time, including a subtitle track with timestamps. There's a slight regression in functionality: I didn't match the former top-level page which showed how much camera used of its disk allocation and the total duration of video. This is exposed in the JSON API, so it shouldn't be too hard to add back.
288 lines
10 KiB
Markdown
288 lines
10 KiB
Markdown
# Moonfire NVR API
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Status: **unstable**. This is an early draft; the API may change without
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warning.
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## Objective
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Allow a JavaScript-based web interface to list cameras and view recordings.
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In the future, this is likely to be expanded:
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* configuration support
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* commandline tool over a UNIX-domain socket
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(at least for bootstrapping web authentication)
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* mobile interface
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## Detailed design
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All requests for JSON data should be sent with the header `Accept:
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application/json` (exactly). Without this header, replies will generally be in
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HTML rather than JSON.
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TODO(slamb): authentication.
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### `/api/`
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A `GET` request on this URL returns basic information about the server,
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including all cameras. Valid request parameters:
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* `days`: a boolean indicating if the days parameter described below
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should be included.
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Example request URI:
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```
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/api/?days=true
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```
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The `application/json` response will have a dict as follows:
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* `timeZoneName`: the name of the IANA time zone the server is using
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to divide recordings into days as described further below.
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* `cameras`: a list of cameras. Each is a dict as follows:
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* `uuid`: in text format
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* `shortName`: a short name (typically one or two words)
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* `description`: a longer description (typically a phrase or paragraph)
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* `retainBytes`: the configured total number of bytes of completed
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recordings to retain.
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* `minStartTime90k`: the start time of the earliest recording for this
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camera, in 90kHz units since 1970-01-01 00:00:00 UTC.
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* `maxEndTime90k`: the end time of the latest recording for this camera,
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in 90kHz units since 1970-01-01 00:00:00 UTC.
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* `totalDuration90k`: the total duration recorded, in 90 kHz units.
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This is no greater than `maxEndTime90k - maxStartTime90k`; it will be
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lesser if there are gaps in the recorded data.
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* `totalSampleFileBytes`: the total number of bytes of sample data (the
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`mdat` portion of a `.mp4` file).
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* `days`: object representing calendar days (in the server's time zone)
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with non-zero total duration of recordings for that day. The keys are
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of the form `YYYY-mm-dd`; the values are objects with the following
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attributes:
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* `totalDuration90k` is the total duration recorded during that day.
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If a recording spans a day boundary, some portion of it is accounted to
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each day.
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* `startTime90k` is the start of that calendar day in the server's time
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zone.
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* `endTime90k` is the end of that calendar day in the server's time zone.
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It is usually 24 hours after the start time. It might be 23 hours or 25
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hours during spring forward or fall back, respectively.
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Example response:
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```json
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{
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"timeZoneName": "America/Los_Angeles",
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"cameras": [
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{
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"uuid": "fd20f7a2-9d69-4cb3-94ed-d51a20c3edfe",
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"shortName": "driveway",
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"description": "Hikvision DS-2CD2032 overlooking the driveway from east",
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"retainBytes": 536870912000,
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"minStartTime90k": 130888729442361,
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"maxEndTime90k": 130985466591817,
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"totalDuration90k": 96736169725,
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"totalSampleFileBytes": 446774393937,
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"days": {
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"2016-05-01": {
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"endTime90k": 131595516000000,
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"startTime90k": 131587740000000,
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"totalDuration90k": 52617609
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},
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"2016-05-02": {
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"endTime90k": 131603292000000,
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"startTime90k": 131595516000000,
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"totalDuration90k": 20946022
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}
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},
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},
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...
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],
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}
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```
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### `/api/cameras/<uuid>/`
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A GET returns information for the camera with the given URL. The information
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Example response:
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```json
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{
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"days": {
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"2016-05-01": {
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"endTime90k": 131595516000000,
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"startTime90k": 131587740000000,
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"totalDuration90k": 52617609
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},
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"2016-05-02": {
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"endTime90k": 131603292000000,
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"startTime90k": 131595516000000,
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"totalDuration90k": 20946022
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}
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},
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"description": "",
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"maxEndTime90k": 131598273666690,
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"minStartTime90k": 131590386129355,
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"retainBytes": 104857600,
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"shortName": "driveway",
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"totalDuration90k": 73563631,
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"totalSampleFileBytes": 98901406
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}
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```
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### `/api/cameras/<uuid>/recordings`
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A GET returns information about recordings, in descending order.
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Valid request parameters:
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* `startTime90k` and and `endTime90k` limit the data returned to only
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recordings which overlap with the given half-open interval. Either or both
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may be absent; they default to the beginning and end of time, respectively.
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* `split90k` causes long runs of recordings to be split at the next
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convenient boundary after the given duration.
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* TODO(slamb): `continue` to support paging. (If data is too large, the
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server should return a `continue` key which is expected to be returned on
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following requests.)
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TODO(slamb): once we support annotations, should they be included in the same
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URI or as a separate `/annotations`?
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In the property `recordings`, returns a list of recordings in arbitrary order.
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Each recording object has the following properties:
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* `startId`. The id of this recording, which can be used with `/view.mp4`
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to retrieve its content.
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* `endId` (optional). If absent, this object describes a single recording.
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If present, this indicates that recordings `startId-endId` (inclusive)
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together are as described. Adjacent recordings from the same RTSP session
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may be coalesced in this fashion to reduce the amount of redundant data
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transferred.
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* `startTime90k`: the start time of the given recording. Note this may be
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less than the requested `startTime90k` if this recording was ongoing
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at the requested time.
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* `endTime90k`: the end time of the given recording. Note this may be
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greater than the requested `endTime90k` if this recording was ongoing at
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the requested time.
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* `sampleFileBytes`
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* `videoSampleEntrySha1`
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* `videoSampleEntryWidth`
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* `videoSampleEntryHeight`
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* `videoSamples`: the number of samples (aka frames) of video in this
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recording.
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Example request URI (with added whitespace between parameters):
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```
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/api/cameras/fd20f7a2-9d69-4cb3-94ed-d51a20c3edfe/recordings
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?startTime90k=130888729442361
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&endTime90k=130985466591817
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```
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Example response:
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```json
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{
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"recordings": [
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{
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"startId": 1,
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"startTime90k": 130985461191810,
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"endTime90k": 130985466591817,
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"sampleFileBytes": 8405564,
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"videoSampleEntrySha1": "81710c9c51a02cc95439caa8dd3bc12b77ffe767",
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"videoSampleEntryWidth": 1280,
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"videoSampleEntryHeight": 720,
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},
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{
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"endTime90k": 130985461191810,
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...
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},
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...
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],
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"continue": "<opaque blob>",
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}
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```
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### `/api/cameras/<uuid>/view.mp4`
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A GET returns a `.mp4` file, with an etag and support for range requests. The
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MIME type will be `video/mp4`, with a `codecs` parameter as specified in [RFC
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6381][rfc-6381].
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Expected query parameters:
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* `s` (one or more): a string of the form
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`START_ID[-END_ID][.[REL_START_TIME]-[REL_END_TIME]]`. This specifies
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recording segments to include. The produced `.mp4` file will be a
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concatenation of the segments indicated by all `s` parameters. The ids to
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retrieve are as returned by the `/recordings` URL. The optional start and
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end times are in 90k units and relative to the start of the first specified
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id. These can be used to clip the returned segments. Note they can be used
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to skip over some ids entirely; this is allowed so that the caller doesn't
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need to know the start time of each interior id. If there is no key frame
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at the desired relative start time, frames back to the last key frame will
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be included in the returned data, and an edit list will instruct the
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viewer to skip to the desired start time.
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* `ts` (optional): should be set to `true` to request a subtitle track be
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added with human-readable recording timestamps.
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Example request URI to retrieve all of recording id 1 from the given camera:
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```
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/api/cameras/fd20f7a2-9d69-4cb3-94ed-d51a20c3edfe/view.mp4?s=1
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```
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Example request URI to retrieve all of recording ids 1–5 from the given camera,
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with timestamp subtitles:
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```
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/api/cameras/fd20f7a2-9d69-4cb3-94ed-d51a20c3edfe/view.mp4?s=1-5&ts=true
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```
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Example request URI to retrieve recording id 1, skipping its first 26
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90,000ths of a second:
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```
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/api/cameras/fd20f7a2-9d69-4cb3-94ed-d51a20c3edfe/view.mp4?s=1.26
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```
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TODO: error behavior on missing segment. It should be a 404, likely with an
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`application/json` body describing what portion if any (still) exists.
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### `/api/cameras/<uuid>/view.m4s`
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A GET returns a `.mp4` suitable for use as a [HTML5 Media Source Extensions
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media segment][media-segment]. The MIME type will be `video/mp4`, with a
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`codecs` parameter as specified in [RFC 6381][rfc-6381].
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Expected query parameters:
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* `s` (one or more): as with the `.mp4` URL, except that media segments
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can't contain edit lists so none will be generated. TODO: maybe add a
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`Leading-Time:` header to indicate how many leading 90,000ths of a second
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are present, so that the caller can trim it in some other way.
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It's recommended that each `.m4s` retrieval be for at most one Moonfire NVR
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recording segment for several reasons:
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* The Media Source Extension API appears structured for adding a complete
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segment at a time. Large media segments thus impose significant latency on
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seeking.
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* There is currently a hard limit of 4 GiB of data because the `.m4s` uses a
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single `moof` followed by a single `mdat`; the former references the
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latter with 32-bit offsets.
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* There's currently no way to generate an initialization segment for more
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than one video sample entry, so a `.m4s` that uses more than one video
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sample entry can't be used.
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### `/api/init/<sha1>.mp4`
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A GET returns a `.mp4` suitable for use as a [HTML5 Media Source Extensions
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initialization segment][init-segment]. The MIME type will be `video/mp4`, with
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a `codecs` parameter as specified in [RFC 6381][rfc-6381].
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[media-segment]: https://w3c.github.io/media-source/isobmff-byte-stream-format.html#iso-media-segments
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[init-segment]: https://w3c.github.io/media-source/isobmff-byte-stream-format.html#iso-init-segments
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[rfc-6381]: https://tools.ietf.org/html/rfc6381
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