Fast, cross-platform Node.js access to ExifTool. Built and supported by PhotoStructure.
-
Best-of-class cross-platform performance and reliability.
This is the module that PhotoStructure (and 500+ other projects) use for photo and video metadata reading and writing.
Expect an order of magnitude faster performance than other Node.js ExifTool modules.
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Best-effort extraction of
- dates with correct timezone offset encoding
- latitudes & longitudes as floats (where negative values indicate west or south of the meridian)
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Support for
- reading tags
- extracting embedded binaries, like thumbnail and preview images
- writing tags
- rescuing metadata
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Robust type definitions of the top 99.5% tags used by over 6,000 different camera makes and models (see an example)
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Automated updates to ExifTool (as new versions come out frequently)
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Robust test coverage, performed with on macOS, Linux, and Windows
npm install --save exiftool-vendored
If anything doesn't work, the first thing to try is enabling the logger.
You can provide a Logger implementation via ExifToolOptions.logger
, or set the environment variable NODE_DEBUG=exiftool-vendored
. See the debuglog() documentation for more details.
Due to how different every Electron application setup is, and how new versions frequently have breaking changes, do not ask for help by opening a github issue on this project.
Please seek help via StackOverflow, the Electron discord, or other channels.
Add the following pattern to electron-builder.yml
's asarUnpack
:
- "node_modules/exiftool-vendored.*/**/*"
The default exiftoolPath
implementation will detect app.asar
in your require
path and replace it with app.asar.unpacked
automatically.
Version 25.0 of this library added experimental support for electron-forge
:
add the following element to your ForgeConfig.packagerConfig.extraResource
string array, and things should "just work" for the main process.
"./node_modules/exiftool-vendored." +
(process.platform === "win32" ? "exe" : "pl")
If your main process forks any node subprocesses, process.resourcesPath
will
not be set in those subprocesses, and the default exiftoolPath
won't work.
If this is your case, you must provide a correct implementation of
ExifToolOptions.exiftoolPath,
either by passing through resourcesPath
via process.env
, or some other
method.
-
exiftool-vendored
provides an installation of ExifTool relevant for your local platform through optionalDependencies. -
You shouldn't include either exiftool-vendored.exe or exiftool-vendored.pl as direct dependencies to your project, unless you know what you're doing.
-
If you're installing on a minimal Linux distribution, you may need to install
perl
. On Alpine, runapk add perl
. -
Node.js's
-slim
docker images don't include a workingperl
build. Use the non-slim image instead. See the issue report for details. -
If the platform-correct vendor module (
exiftool-vendored.exe
orexiftool-vendored.pl
) is not found,exiftool
is searched for on yourPATH
. Note that very old versions ofexiftool
are found on currently-supported Linux distributions which this library will not work correctly with.
See the CHANGELOG for breaking changes since you last updated.
I bump the major version if there's a chance existing code might be affected.
I've been bit too many times by my code breaking when I pull in minor or patch upgrades with other libraries. I think it's better to be pessimistic in code change impact analysis: "over-promise and under-deliver" your breaking-code changes.
When you upgrade to a new major version, please take a bit more care in validating your own systems, but don't be surprised when everything still works.
There are many configuration options to ExifTool, but all values have (more or less sensible) defaults.
Those defaults have been used to create the
exiftool
singleton.
Note that if you don't use the default singleton, you don't need to .end()
it.
// We're using the singleton here for convenience:
const exiftool = require("exiftool-vendored").exiftool
// And to verify everything is working:
exiftool
.version()
.then((version) => console.log(`We're running ExifTool v${version}`))
If the default ExifTool constructor parameters wont' work for you, it's just a class that takes an options hash:
const ExifTool = require("exiftool-vendored").ExifTool
const exiftool = new ExifTool({ taskTimeoutMillis: 5000 })
You should only use the exported default exiftool
singleton, or only create one instance of ExifTool
as a singleton.
Remember to .end()
whichever singleton you use.
ExifTool.read()
returns a Promise to a Tags instance. Note
that errors may be returned either by rejecting the promise, or for less
severe problems, via the errors
field.
All other public ExifTool methods return Promise<void>
, and will reject
the promise if the operation is not successful.
ExifTool knows how to extract several thousand different tag fields.
Unfortunately, TypeScript crashes with error TS2590: Expression produces a union type that is too complex to represent
if the Tags
interface was comprehensive.
Instead, we build a corpus of "commonly seen" tags from over 10,000 different digital camera makes and models, many from the ExifTool metadata repository and <raw.pixls.us>.
Here are some example fields:
/** β
βββ β Example: 200 */
ISO?: number
/** β
β
β
β
β Example: 1920 */
ImageHeight?: number
/** β
β
β
β
β Example: 1080 */
ImageWidth?: number
/** β
β
β
β
β Example: "image/jpeg" */
MIMEType?: string
The stars represent how common that field has a value in the example corpus. β β β β fields are found in > 50% of the examples. ββββ fields are found in < 1% of examples.
The checkmark denotes if the field is found in "popular" cameras (like recent Nikon, Canon, Sony, and Apple devices).
The fields in Tags
are not comprehensive.
Just because a field is missing from the Tags interface does not mean the field doesn't exist in the returned object. This library doesn't exclude unknown fields, in other words. It's up to you and your code to look for other fields you expect and cast to a more relevant interface.
To enable trace, debug, info, warning, or error logging from this library and
the underlying batch-cluster
library, provide a Logger instance to the ExifTool
constructor options.
ExifTool instances emits many lifecycle and error events via batch-cluster
.
exiftool
.read("path/to/image.jpg")
.then((tags /*: Tags */) =>
console.log(
`Make: ${tags.Make}, Model: ${tags.Model}, Errors: ${tags.errors}`
)
)
.catch((err) => console.error("Something terrible happened: ", err))
Extract the low-resolution thumbnail in path/to/image.jpg
, write it to
path/to/thumbnail.jpg
, and return a Promise<void>
that is fulfilled
when the image is extracted:
exiftool.extractThumbnail("path/to/image.jpg", "path/to/thumbnail.jpg")
Extract the Preview
image (only found in some images):
exiftool.extractPreview("path/to/image.jpg", "path/to/preview.jpg")
Extract the JpgFromRaw
image (found in some RAW images):
exiftool.extractJpgFromRaw("path/to/image.cr2", "path/to/fromRaw.jpg")
Extract the binary value from "tagname" tag in path/to/image.jpg
and write it to dest.bin
(which cannot exist already
and whose parent directory must already exist):
exiftool.extractBinaryTag("tagname", "path/to/file.exf", "path/to/dest.bin")
Note that only a portion of tags is writable. Refer to the documentation and look under the "Writable" column.
If you apply malformed values or ask to write to tags that aren't
supported, the returned Promise
will be rejected.
Only string and numeric primitives are supported as values to the object.
To write a comment to the given file so it shows up in the Windows Explorer Properties panel:
exiftool.write("path/to/file.jpg", { XPComment: "this is a test comment" })
To change the DateTimeOriginal, CreateDate and ModifyDate tags (using the AllDates shortcut) to 4:56pm UTC on February 6, 2016:
exiftool.write("path/to/file.jpg", { AllDates: "2016-02-06T16:56:00" })
To write to a specific metadata group's tag, just prefix the tag name with the group. (TypeScript users: you'll need to cast to make this compile).
exiftool.write("path/to/file.jpg", {
"IPTC:CopyrightNotice": "Β© 2021 PhotoStructure, Inc.",
})
To delete a tag, use null
as the value.
exiftool.write("path/to/file.jpg", { UserComment: null })
The above example removes any value associated with the UserComment
tag.
If you edit a timestamp tag, realize that the difference between the
changed timestamp tag and the GPS value is used by exiftool-vendored
to
infer the timezone.
In other words, if you only edit the CreateDate
and don't edit the GPS
timestamps, your timezone will either be incorrect or missing. See the
section about Dates below for more information.
You may find that some of your images have corrupt metadata and that writing new dates, or editing the rotation information, for example, fails. ExifTool can try to repair these images by rewriting all the metadata into a new file, along with the original image content. See the documentation for more details about this functionality.
rewriteAllTags
returns a void Promise that will be rejected if there are any
errors.
exiftool.rewriteAllTags("problematic.jpg", "rewritten.jpg")
ExifTool has an extensive user configuration system. There are several ways to use one:
- Place your user configuration
file in your
HOME
directory - Set the
EXIFTOOL_HOME
environment variable to the fully-qualified path that contains your user configuration. - Specify the in the ExifTool constructor options:
new ExifTool({ exiftoolEnv: { EXIFTOOL_HOME: resolve("path", "to", "config", "dir") }
Call ExifTool.end()
when you're done
You must explicitly call
.end()
on any used instance of ExifTool
to allow node
to exit gracefully.
ExifTool child processes consume system resources, and prevents node
from
exiting due to the way Node.js streams
work.
Note that you can't call cannot be in a process.on("exit")
hook, as the stdio
streams
attached to the child process cannot be unref
'ed. (If there's a solution to
this, please post to the above issue!)
If you use mocha v4 or later, and you don't call
exiftool.end()
, you will find that your test suite hangs. The relevant
change is described here,
and can be solved by adding an after
block that shuts down the instance
of ExifTool that your tests are using:
after(() => exiftool.end()) // assuming your singleton is called `exiftool`
The date metadata in all your images and videos are, most likely, underspecified.
Images and videos rarely specify a time zone in their dates. If all your files were captured in your current time zone, defaulting to the local time zone is a safe assumption, but if you have files that were captured in different parts of the world, this assumption will not be correct. Parsing the same file in different parts of the world result in different times for the same file.
Prior to version 7, heuristic 1 and 3 were applied.
As of version 7.0.0, exiftool-vendored
uses the following heuristics. The
highest-priority heuristic to return a value will be used as the timezone offset
for all datetime tags that don't already have a specified timezone.
If the EXIF
TimeZoneOffset
tag is present it will be applied as per the spec to
DateTimeOriginal
, and if there are two values, the ModifyDate
tag as well.
OffsetTime
, OffsetTimeOriginal
, and OffsetTimeDigitized
are also
respected, if present (but are very rarely set).
If GPS latitude and longitude is present and valid (the value of 0, 0
is
considered invalid), the tz-lookup
library will be used to determine the time
zone name for that location.
If GPSDateTime
or DateTimeUTC
is present, the delta with the dates found
within the file, as long as the delta is valid, is used as the timezone offset.
Deltas of > 14 hours are considered invalid.
Because date-times have this optionally-set timezone, and some tags only specify
the date, this library returns classes that encode the date, the time of day, or
both, with an optional timezone and an optional tzoffset: ExifDateTime
and
ExifTime
. It's up to you, then, to determine what's correct for your
situation.
Note also that some smartphones record timestamps with microsecond precision
(not just milliseconds!), and both ExifDateTime
and ExifTime
have floating point
milliseconds.
Official EXIF tag names
are PascalCased, like
AFPointSelected
and ISO
. ("Fixing" the field names to be camelCase, would
result in ungainly aFPointSelected
and iSO
atrocities).
The Tags interface is
auto-generated by the mktags
script, which parses through over 6,000 unique
camera make and model images, in large part sourced from the ExifTool site.
mktags
groups tags, extracts their type, popularity, and example values such
that your IDE can autocomplete.
Tags marked with "β β β β ", like MIMEType, should be found in most files. Of the several thousand metadata tags, realize less than 50 are found generally. You'll need to do your research to determine which tags are valid for your uses.
Note that if parsing fails (for, example, a date-time string), the raw string will be returned. Consuming code should verify both existence and type as reasonable for safety.
The Tags
object returned by ExifTool.read()
can be serialized to JSON with JSON.stringify
.
To reconstitute, use the parseJSON()
method.
import { exiftool, parseJSON } from "exiftool-vendored"
const tags: Tags = await exiftool.read("/path/to/file.jpg")
const str: string = JSON.stringify(tags)
// parseJSON doesn't validate the input, so we don't assert that it's a Tags
// instance, but you can cast it (unsafely...)
const tags2: Tags = parseJSON(str) as Tags
The default exiftool singleton is intentionally throttled. If full system utilization is acceptable:
-
set
maxProcs
higher -
consider setting
minDelayBetweenSpawnMillis
to 0 -
On a performant linux box, a smaller value of
streamFlushMillis
may work as well: if you seenoTaskData
events, you need to bump the value up.
The yarn mktags ../path/to/examples
target reads all tags found in a directory
hierarchy of sample images and videos, and parses the results.
exiftool-vendored
v16.0.0 on a 2019 AMD Ryzen 3900X running Ubuntu 20.04 on an
SSD can process 20+ files per second per thread, or 500+ files per second when
utilizing all CPU threads.
Using ExifTool's -stay_open
batch mode means we can reuse a single
instance of ExifTool across many requests, dropping response latency
dramatically as well as reducing system load.
To avoid overwhelming your system, the exiftool
singleton is configured with a
maxProcs
set to a quarter the number of CPUs on the current system (minimally
1); no more than maxProcs
instances of exiftool
will be spawned. If the
system is CPU constrained, however, you may want a smaller value. If you have
very fast disk IO, you may see a speed increase with larger values of
maxProcs
, but note that each child process can consume 100 MB of RAM.
See the CHANGELOG on github.