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-rw-r--r--vendor/miniz_oxide/src/inflate/stream.rs418
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diff --git a/vendor/miniz_oxide/src/inflate/stream.rs b/vendor/miniz_oxide/src/inflate/stream.rs
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+//! Extra streaming decompression functionality.
+//!
+//! As of now this is mainly intended for use to build a higher-level wrapper.
+#[cfg(feature = "with-alloc")]
+use crate::alloc::boxed::Box;
+use core::{cmp, mem};
+
+use crate::inflate::core::{decompress, inflate_flags, DecompressorOxide, TINFL_LZ_DICT_SIZE};
+use crate::inflate::TINFLStatus;
+use crate::{DataFormat, MZError, MZFlush, MZResult, MZStatus, StreamResult};
+
+/// Tag that determines reset policy of [InflateState](struct.InflateState.html)
+pub trait ResetPolicy {
+ /// Performs reset
+ fn reset(&self, state: &mut InflateState);
+}
+
+/// Resets state, without performing expensive ops (e.g. zeroing buffer)
+///
+/// Note that not zeroing buffer can lead to security issues when dealing with untrusted input.
+pub struct MinReset;
+
+impl ResetPolicy for MinReset {
+ fn reset(&self, state: &mut InflateState) {
+ state.decompressor().init();
+ state.dict_ofs = 0;
+ state.dict_avail = 0;
+ state.first_call = true;
+ state.has_flushed = false;
+ state.last_status = TINFLStatus::NeedsMoreInput;
+ }
+}
+
+/// Resets state and zero memory, continuing to use the same data format.
+pub struct ZeroReset;
+
+impl ResetPolicy for ZeroReset {
+ #[inline]
+ fn reset(&self, state: &mut InflateState) {
+ MinReset.reset(state);
+ state.dict = [0; TINFL_LZ_DICT_SIZE];
+ }
+}
+
+/// Full reset of the state, including zeroing memory.
+///
+/// Requires to provide new data format.
+pub struct FullReset(pub DataFormat);
+
+impl ResetPolicy for FullReset {
+ #[inline]
+ fn reset(&self, state: &mut InflateState) {
+ ZeroReset.reset(state);
+ state.data_format = self.0;
+ }
+}
+
+/// A struct that compbines a decompressor with extra data for streaming decompression.
+///
+pub struct InflateState {
+ /// Inner decompressor struct
+ decomp: DecompressorOxide,
+
+ /// Buffer of input bytes for matches.
+ /// TODO: Could probably do this a bit cleaner with some
+ /// Cursor-like class.
+ /// We may also look into whether we need to keep a buffer here, or just one in the
+ /// decompressor struct.
+ dict: [u8; TINFL_LZ_DICT_SIZE],
+ /// Where in the buffer are we currently at?
+ dict_ofs: usize,
+ /// How many bytes of data to be flushed is there currently in the buffer?
+ dict_avail: usize,
+
+ first_call: bool,
+ has_flushed: bool,
+
+ /// Whether the input data is wrapped in a zlib header and checksum.
+ /// TODO: This should be stored in the decompressor.
+ data_format: DataFormat,
+ last_status: TINFLStatus,
+}
+
+impl Default for InflateState {
+ fn default() -> Self {
+ InflateState {
+ decomp: DecompressorOxide::default(),
+ dict: [0; TINFL_LZ_DICT_SIZE],
+ dict_ofs: 0,
+ dict_avail: 0,
+ first_call: true,
+ has_flushed: false,
+ data_format: DataFormat::Raw,
+ last_status: TINFLStatus::NeedsMoreInput,
+ }
+ }
+}
+impl InflateState {
+ /// Create a new state.
+ ///
+ /// Note that this struct is quite large due to internal buffers, and as such storing it on
+ /// the stack is not recommended.
+ ///
+ /// # Parameters
+ /// `data_format`: Determines whether the compressed data is assumed to wrapped with zlib
+ /// metadata.
+ pub fn new(data_format: DataFormat) -> InflateState {
+ InflateState {
+ data_format,
+ ..Default::default()
+ }
+ }
+
+ /// Create a new state on the heap.
+ ///
+ /// # Parameters
+ /// `data_format`: Determines whether the compressed data is assumed to wrapped with zlib
+ /// metadata.
+ #[cfg(feature = "with-alloc")]
+ pub fn new_boxed(data_format: DataFormat) -> Box<InflateState> {
+ let mut b: Box<InflateState> = Box::default();
+ b.data_format = data_format;
+ b
+ }
+
+ /// Access the innner decompressor.
+ pub fn decompressor(&mut self) -> &mut DecompressorOxide {
+ &mut self.decomp
+ }
+
+ /// Return the status of the last call to `inflate` with this `InflateState`.
+ pub const fn last_status(&self) -> TINFLStatus {
+ self.last_status
+ }
+
+ /// Create a new state using miniz/zlib style window bits parameter.
+ ///
+ /// The decompressor does not support different window sizes. As such,
+ /// any positive (>0) value will set the zlib header flag, while a negative one
+ /// will not.
+ #[cfg(feature = "with-alloc")]
+ pub fn new_boxed_with_window_bits(window_bits: i32) -> Box<InflateState> {
+ let mut b: Box<InflateState> = Box::default();
+ b.data_format = DataFormat::from_window_bits(window_bits);
+ b
+ }
+
+ #[inline]
+ /// Reset the decompressor without re-allocating memory, using the given
+ /// data format.
+ pub fn reset(&mut self, data_format: DataFormat) {
+ self.reset_as(FullReset(data_format));
+ }
+
+ #[inline]
+ /// Resets the state according to specified policy.
+ pub fn reset_as<T: ResetPolicy>(&mut self, policy: T) {
+ policy.reset(self)
+ }
+}
+
+/// Try to decompress from `input` to `output` with the given [`InflateState`]
+///
+/// # `flush`
+///
+/// Generally, the various [`MZFlush`] flags have meaning only on the compression side. They can be
+/// supplied here, but the only one that has any semantic meaning is [`MZFlush::Finish`], which is a
+/// signal that the stream is expected to finish, and failing to do so is an error. It isn't
+/// necessary to specify it when the stream ends; you'll still get returned a
+/// [`MZStatus::StreamEnd`] anyway. Other values either have no effect or cause errors. It's
+/// likely that you'll almost always just want to use [`MZFlush::None`].
+///
+/// # Errors
+///
+/// Returns [`MZError::Buf`] if the size of the `output` slice is empty or no progress was made due
+/// to lack of expected input data, or if called with [`MZFlush::Finish`] and input wasn't all
+/// consumed.
+///
+/// Returns [`MZError::Data`] if this or a a previous call failed with an error return from
+/// [`TINFLStatus`]; probably indicates corrupted data.
+///
+/// Returns [`MZError::Stream`] when called with [`MZFlush::Full`] (meaningless on
+/// decompression), or when called without [`MZFlush::Finish`] after an earlier call with
+/// [`MZFlush::Finish`] has been made.
+pub fn inflate(
+ state: &mut InflateState,
+ input: &[u8],
+ output: &mut [u8],
+ flush: MZFlush,
+) -> StreamResult {
+ let mut bytes_consumed = 0;
+ let mut bytes_written = 0;
+ let mut next_in = input;
+ let mut next_out = output;
+
+ if flush == MZFlush::Full {
+ return StreamResult::error(MZError::Stream);
+ }
+
+ let mut decomp_flags = if state.data_format == DataFormat::Zlib {
+ inflate_flags::TINFL_FLAG_COMPUTE_ADLER32
+ } else {
+ inflate_flags::TINFL_FLAG_IGNORE_ADLER32
+ };
+
+ if (state.data_format == DataFormat::Zlib)
+ | (state.data_format == DataFormat::ZLibIgnoreChecksum)
+ {
+ decomp_flags |= inflate_flags::TINFL_FLAG_PARSE_ZLIB_HEADER;
+ }
+
+ let first_call = state.first_call;
+ state.first_call = false;
+ if (state.last_status as i32) < 0 {
+ return StreamResult::error(MZError::Data);
+ }
+
+ if state.has_flushed && (flush != MZFlush::Finish) {
+ return StreamResult::error(MZError::Stream);
+ }
+ state.has_flushed |= flush == MZFlush::Finish;
+
+ if (flush == MZFlush::Finish) && first_call {
+ decomp_flags |= inflate_flags::TINFL_FLAG_USING_NON_WRAPPING_OUTPUT_BUF;
+
+ let status = decompress(&mut state.decomp, next_in, next_out, 0, decomp_flags);
+ let in_bytes = status.1;
+ let out_bytes = status.2;
+ let status = status.0;
+
+ state.last_status = status;
+
+ bytes_consumed += in_bytes;
+ bytes_written += out_bytes;
+
+ let ret_status = {
+ if (status as i32) < 0 {
+ Err(MZError::Data)
+ } else if status != TINFLStatus::Done {
+ state.last_status = TINFLStatus::Failed;
+ Err(MZError::Buf)
+ } else {
+ Ok(MZStatus::StreamEnd)
+ }
+ };
+ return StreamResult {
+ bytes_consumed,
+ bytes_written,
+ status: ret_status,
+ };
+ }
+
+ if flush != MZFlush::Finish {
+ decomp_flags |= inflate_flags::TINFL_FLAG_HAS_MORE_INPUT;
+ }
+
+ if state.dict_avail != 0 {
+ bytes_written += push_dict_out(state, &mut next_out);
+ return StreamResult {
+ bytes_consumed,
+ bytes_written,
+ status: Ok(
+ if (state.last_status == TINFLStatus::Done) && (state.dict_avail == 0) {
+ MZStatus::StreamEnd
+ } else {
+ MZStatus::Ok
+ },
+ ),
+ };
+ }
+
+ let status = inflate_loop(
+ state,
+ &mut next_in,
+ &mut next_out,
+ &mut bytes_consumed,
+ &mut bytes_written,
+ decomp_flags,
+ flush,
+ );
+ StreamResult {
+ bytes_consumed,
+ bytes_written,
+ status,
+ }
+}
+
+fn inflate_loop(
+ state: &mut InflateState,
+ next_in: &mut &[u8],
+ next_out: &mut &mut [u8],
+ total_in: &mut usize,
+ total_out: &mut usize,
+ decomp_flags: u32,
+ flush: MZFlush,
+) -> MZResult {
+ let orig_in_len = next_in.len();
+ loop {
+ let status = decompress(
+ &mut state.decomp,
+ *next_in,
+ &mut state.dict,
+ state.dict_ofs,
+ decomp_flags,
+ );
+
+ let in_bytes = status.1;
+ let out_bytes = status.2;
+ let status = status.0;
+
+ state.last_status = status;
+
+ *next_in = &next_in[in_bytes..];
+ *total_in += in_bytes;
+
+ state.dict_avail = out_bytes;
+ *total_out += push_dict_out(state, next_out);
+
+ // The stream was corrupted, and decompression failed.
+ if (status as i32) < 0 {
+ return Err(MZError::Data);
+ }
+
+ // The decompressor has flushed all it's data and is waiting for more input, but
+ // there was no more input provided.
+ if (status == TINFLStatus::NeedsMoreInput) && orig_in_len == 0 {
+ return Err(MZError::Buf);
+ }
+
+ if flush == MZFlush::Finish {
+ if status == TINFLStatus::Done {
+ // There is not enough space in the output buffer to flush the remaining
+ // decompressed data in the internal buffer.
+ return if state.dict_avail != 0 {
+ Err(MZError::Buf)
+ } else {
+ Ok(MZStatus::StreamEnd)
+ };
+ // No more space in the output buffer, but we're not done.
+ } else if next_out.is_empty() {
+ return Err(MZError::Buf);
+ }
+ } else {
+ // We're not expected to finish, so it's fine if we can't flush everything yet.
+ let empty_buf = next_in.is_empty() || next_out.is_empty();
+ if (status == TINFLStatus::Done) || empty_buf || (state.dict_avail != 0) {
+ return if (status == TINFLStatus::Done) && (state.dict_avail == 0) {
+ // No more data left, we're done.
+ Ok(MZStatus::StreamEnd)
+ } else {
+ // Ok for now, still waiting for more input data or output space.
+ Ok(MZStatus::Ok)
+ };
+ }
+ }
+ }
+}
+
+fn push_dict_out(state: &mut InflateState, next_out: &mut &mut [u8]) -> usize {
+ let n = cmp::min(state.dict_avail as usize, next_out.len());
+ (next_out[..n]).copy_from_slice(&state.dict[state.dict_ofs..state.dict_ofs + n]);
+ *next_out = &mut mem::take(next_out)[n..];
+ state.dict_avail -= n;
+ state.dict_ofs = (state.dict_ofs + (n)) & (TINFL_LZ_DICT_SIZE - 1);
+ n
+}
+
+#[cfg(test)]
+mod test {
+ use super::{inflate, InflateState};
+ use crate::{DataFormat, MZFlush, MZStatus};
+ use alloc::vec;
+
+ #[test]
+ fn test_state() {
+ let encoded = [
+ 120u8, 156, 243, 72, 205, 201, 201, 215, 81, 168, 202, 201, 76, 82, 4, 0, 27, 101, 4,
+ 19,
+ ];
+ let mut out = vec![0; 50];
+ let mut state = InflateState::new_boxed(DataFormat::Zlib);
+ let res = inflate(&mut state, &encoded, &mut out, MZFlush::Finish);
+ let status = res.status.expect("Failed to decompress!");
+ assert_eq!(status, MZStatus::StreamEnd);
+ assert_eq!(out[..res.bytes_written as usize], b"Hello, zlib!"[..]);
+ assert_eq!(res.bytes_consumed, encoded.len());
+
+ state.reset_as(super::ZeroReset);
+ out.iter_mut().map(|x| *x = 0).count();
+ let res = inflate(&mut state, &encoded, &mut out, MZFlush::Finish);
+ let status = res.status.expect("Failed to decompress!");
+ assert_eq!(status, MZStatus::StreamEnd);
+ assert_eq!(out[..res.bytes_written as usize], b"Hello, zlib!"[..]);
+ assert_eq!(res.bytes_consumed, encoded.len());
+
+ state.reset_as(super::MinReset);
+ out.iter_mut().map(|x| *x = 0).count();
+ let res = inflate(&mut state, &encoded, &mut out, MZFlush::Finish);
+ let status = res.status.expect("Failed to decompress!");
+ assert_eq!(status, MZStatus::StreamEnd);
+ assert_eq!(out[..res.bytes_written as usize], b"Hello, zlib!"[..]);
+ assert_eq!(res.bytes_consumed, encoded.len());
+ assert_eq!(state.decompressor().adler32(), Some(459605011));
+
+ // Test state when not computing adler.
+ state = InflateState::new_boxed(DataFormat::ZLibIgnoreChecksum);
+ out.iter_mut().map(|x| *x = 0).count();
+ let res = inflate(&mut state, &encoded, &mut out, MZFlush::Finish);
+ let status = res.status.expect("Failed to decompress!");
+ assert_eq!(status, MZStatus::StreamEnd);
+ assert_eq!(out[..res.bytes_written as usize], b"Hello, zlib!"[..]);
+ assert_eq!(res.bytes_consumed, encoded.len());
+ // Not computed, so should be Some(1)
+ assert_eq!(state.decompressor().adler32(), Some(1));
+ // Should still have the checksum read from the header file.
+ assert_eq!(state.decompressor().adler32_header(), Some(459605011))
+ }
+}