pict-rs/src/validate.rs

261 lines
6.7 KiB
Rust

mod exiftool;
mod ffmpeg;
mod magick;
use crate::{
bytes_stream::BytesStream,
discover::Discovery,
error::Error,
error_code::ErrorCode,
formats::{
AnimationFormat, AnimationOutput, ImageInput, ImageOutput, InputFile, InputVideoFormat,
InternalFormat,
},
process::{Process, ProcessRead},
state::State,
};
#[derive(Debug, thiserror::Error)]
pub(crate) enum ValidationError {
#[error("Too wide")]
Width,
#[error("Too tall")]
Height,
#[error("Too many pixels")]
Area,
#[error("Too many frames")]
Frames,
#[error("Uploaded file is empty")]
Empty,
#[error("Filesize too large")]
Filesize,
#[error("Video is disabled")]
VideoDisabled,
}
impl ValidationError {
pub(crate) const fn error_code(&self) -> ErrorCode {
match self {
Self::Width => ErrorCode::VALIDATE_WIDTH,
Self::Height => ErrorCode::VALIDATE_HEIGHT,
Self::Area => ErrorCode::VALIDATE_AREA,
Self::Frames => ErrorCode::VALIDATE_FRAMES,
Self::Empty => ErrorCode::VALIDATE_FILE_EMPTY,
Self::Filesize => ErrorCode::VALIDATE_FILE_SIZE,
Self::VideoDisabled => ErrorCode::VIDEO_DISABLED,
}
}
}
const MEGABYTES: usize = 1024 * 1024;
#[tracing::instrument(skip_all)]
pub(crate) async fn validate_bytes_stream<S>(
state: &State<S>,
bytes: BytesStream,
) -> Result<(InternalFormat, ProcessRead), Error> {
if bytes.is_empty() {
return Err(ValidationError::Empty.into());
}
let Discovery {
input,
width,
height,
frames,
} = crate::discover::discover_bytes_stream(state, bytes.clone()).await?;
match &input {
InputFile::Image(input) => {
let (format, process) =
process_image_command(state, *input, bytes.len(), width, height).await?;
Ok((format, process.drive_with_async_read(bytes.into_reader())))
}
InputFile::Animation(input) => {
let (format, process) = process_animation_command(
state,
*input,
bytes.len(),
width,
height,
frames.unwrap_or(1),
)
.await?;
Ok((format, process.drive_with_async_read(bytes.into_reader())))
}
InputFile::Video(input) => {
let (format, process_read) =
process_video(state, bytes, *input, width, height, frames.unwrap_or(1)).await?;
Ok((format, process_read))
}
}
}
#[tracing::instrument(skip(state))]
async fn process_image_command<S>(
state: &State<S>,
input: ImageInput,
length: usize,
width: u16,
height: u16,
) -> Result<(InternalFormat, Process), Error> {
let validations = &state.config.media.image;
if width > validations.max_width {
return Err(ValidationError::Width.into());
}
if height > validations.max_height {
return Err(ValidationError::Height.into());
}
if u32::from(width) * u32::from(height) > validations.max_area {
return Err(ValidationError::Area.into());
}
if length > validations.max_file_size * MEGABYTES {
return Err(ValidationError::Filesize.into());
}
let ImageOutput {
format,
needs_transcode,
} = input.build_output(validations.format);
let process = if needs_transcode {
let quality = validations.quality_for(format);
magick::convert_image_command(state, input.format, format, quality).await?
} else {
exiftool::clear_metadata_command(state.config.media.process_timeout)?
};
Ok((InternalFormat::Image(format), process))
}
fn validate_animation(
size: usize,
width: u16,
height: u16,
frames: u32,
validations: &crate::config::Animation,
) -> Result<(), ValidationError> {
if width > validations.max_width {
return Err(ValidationError::Width);
}
if height > validations.max_height {
return Err(ValidationError::Height);
}
if u32::from(width) * u32::from(height) > validations.max_area {
return Err(ValidationError::Area);
}
if frames > validations.max_frame_count {
return Err(ValidationError::Frames);
}
if size > validations.max_file_size * MEGABYTES {
return Err(ValidationError::Filesize);
}
Ok(())
}
#[tracing::instrument(skip(state))]
async fn process_animation_command<S>(
state: &State<S>,
input: AnimationFormat,
length: usize,
width: u16,
height: u16,
frames: u32,
) -> Result<(InternalFormat, Process), Error> {
let validations = &state.config.media.animation;
validate_animation(length, width, height, frames, validations)?;
let AnimationOutput {
format,
needs_transcode,
} = input.build_output(validations.format);
let process = if needs_transcode {
let quality = validations.quality_for(format);
magick::convert_animation_command(state, input, format, quality).await?
} else {
exiftool::clear_metadata_command(state.config.media.process_timeout)?
};
Ok((InternalFormat::Animation(format), process))
}
fn validate_video(
size: usize,
width: u16,
height: u16,
frames: u32,
validations: &crate::config::Video,
) -> Result<(), ValidationError> {
if !validations.enable {
return Err(ValidationError::VideoDisabled);
}
if width > validations.max_width {
return Err(ValidationError::Width);
}
if height > validations.max_height {
return Err(ValidationError::Height);
}
if u32::from(width) * u32::from(height) > validations.max_area {
return Err(ValidationError::Area);
}
if frames > validations.max_frame_count {
return Err(ValidationError::Frames);
}
if size > validations.max_file_size * MEGABYTES {
return Err(ValidationError::Filesize);
}
Ok(())
}
#[tracing::instrument(skip(state, bytes), fields(len = bytes.len()))]
async fn process_video<S>(
state: &State<S>,
bytes: BytesStream,
input: InputVideoFormat,
width: u16,
height: u16,
frames: u32,
) -> Result<(InternalFormat, ProcessRead), Error> {
let validations = &state.config.media.video;
validate_video(bytes.len(), width, height, frames, validations)?;
let output = input.build_output(
validations.video_codec,
validations.audio_codec,
validations.allow_audio,
);
let crf = validations.crf_for(width, height);
let process_read = ffmpeg::transcode_bytes(
&state.tmp_dir,
input,
output,
crf,
state.config.media.process_timeout,
bytes,
)
.await?;
Ok((
InternalFormat::Video(output.format.internal_format()),
process_read,
))
}