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Add positional blob i/o and adjust blob i/o example docs
This commit is contained in:
parent
ee4a770efb
commit
7cd909fc14
@ -3,54 +3,188 @@
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//! Note that SQLite does not provide API-level access to change the size of a
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//! BLOB; that must be performed through SQL statements.
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//!
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//! There are two choices for how to perform IO on a [`Blob`].
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//!
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//! 1. The implementations it provides of the `std::io::Read`, `std::io::Write`,
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//! and `std::io::Seek` traits.
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//!
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//! 2. A positional IO API, e.g. [`Blob::read_at`], [`Blob::write_at`] and
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//! similar.
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//!
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//! Documenting these in order:
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//!
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//! ## 1. `std::io` trait implementations.
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//!
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//! `Blob` conforms to `std::io::Read`, `std::io::Write`, and `std::io::Seek`,
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//! so it plays nicely with other types that build on these (such as
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//! `std::io::BufReader` and `std::io::BufWriter`). However, you must be
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//! careful with the size of the blob. For example, when using a `BufWriter`,
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//! the `BufWriter` will accept more data than the `Blob`
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//! will allow, so make sure to call `flush` and check for errors. (See the
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//! unit tests in this module for an example.)
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//! `std::io::BufReader` and `std::io::BufWriter`). However, you must be careful
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//! with the size of the blob. For example, when using a `BufWriter`, the
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//! `BufWriter` will accept more data than the `Blob` will allow, so make sure
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//! to call `flush` and check for errors. (See the unit tests in this module for
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//! an example.)
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//!
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//! ## Example
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//! ## 2. Positional IO
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//!
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//! `Blob`s also offer a `pread` / `pwrite`-style positional IO api in the form
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//! of [`Blob::read_at`], [`Blob::write_at`], [`Blob::raw_read_at`],
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//! [`Blob::read_at_exact`], and [`Blob::raw_read_at_exact`].
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//!
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//! These APIs all take the position to read from or write to from as a
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//! parameter, instead of using an internal `pos` value.
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//!
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//! ### Positional IO Read Variants
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//!
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//! For the `read` functions, there are several functions provided:
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//!
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//! - [`Blob::read_at`]
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//! - [`Blob::raw_read_at`]
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//! - [`Blob::read_at_exact`]
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//! - [`Blob::raw_read_at_exact`]
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//!
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//! These can be divided along two axes: raw/not raw, and exact/inexact:
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//!
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//! 1. Raw/not raw refers to the type of the destination buffer. The raw
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//! functions take a `&mut [MaybeUninit<u8>]` as the destination buffer,
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//! where the "normal" functions take a `&mut [u8]`.
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//!
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//! Using `MaybeUninit` here can be more efficient in some cases, but is
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//! often inconvenient, so both are provided.
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//!
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//! 2. Exact/inexact refers to to whether or not the entire buffer must be
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//! filled in order for the call to be considered a success.
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//!
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//! The "exact" functions require the provided buffer be entirely filled, or
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//! they return an error, wheras the "inexact" functions read as much out of
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//! the blob as is available, and return how much they were able to read.
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//!
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//! The inexact functions are preferrable if you do not know the size of the
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//! blob already, and the exact functions are preferrable if you do.
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//!
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//! ### Comparison to using the `std::io` traits:
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//!
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//! In general, the positional methods offer the following Pro/Cons compared to
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//! using the implementation `std::io::{Read, Write, Seek}` we provide for
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//! `Blob`:
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//!
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//! 1. (Pro) There is no need to first seek to a position in order to perform IO
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//! on it as the position is a parameter.
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//!
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//! 2. (Pro) `Blob`'s positional read functions don't mutate the blob in any
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//! way, and take `&self`. No `&mut` access required.
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//!
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//! 3. (Pro) Positional IO functions return `Err(rusqlite::Error)` on failure,
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//! rather than `Err(std::io::Error)`. Returning `rusqlite::Error` is more
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//! accurate and convenient.
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//!
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//! Note that for the `std::io` API, no data is lost however, and it can be
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//! recovered with `io_err.downcast::<rusqlite::Error>()` (this can be easy
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//! to forget, though).
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//!
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//! 4. (Pro, for now). A `raw` version of the read API exists which can allow
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//! reading into a `&mut [MaybeUninit<u8>]` buffer, which avoids a potential
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//! costly initialization step. (However, `std::io` traits will certainly
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//! gain this someday, which is why this is only a "Pro, for now").
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//!
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//! 5. (Con) The set of functions is more bare-bones than what is offered in
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//! `std::io`, which has a number of adapters, handy algorithms, further
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//! traits.
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//!
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//! 6. (Con) No meaningful interoperability with other crates, so if you need
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//! that you must use `std::io`.
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//!
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//! To generalize: the `std::io` traits are useful because they conform to a
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//! standard interface that a lot of code knows how to handle, however that
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//! interface is not a perfect fit for [`Blob`], so another small set of
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//! functions is provided as well.
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//!
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//! # Example (`std::io`)
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//!
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//! ```rust
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//! use rusqlite::blob::ZeroBlob;
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//! use rusqlite::{Connection, DatabaseName, NO_PARAMS};
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//! use std::error::Error;
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//! use std::io::{Read, Seek, SeekFrom, Write};
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//! # use rusqlite::blob::ZeroBlob;
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//! # use rusqlite::{Connection, DatabaseName, NO_PARAMS};
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//! # use std::error::Error;
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//! # use std::io::{Read, Seek, SeekFrom, Write};
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//! # fn main() -> Result<(), Box<dyn Error>> {
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//! let db = Connection::open_in_memory()?;
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//! db.execute_batch("CREATE TABLE test_table (content BLOB);")?;
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//!
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//! fn main() -> Result<(), Box<Error>> {
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//! let db = Connection::open_in_memory()?;
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//! db.execute_batch("CREATE TABLE test (content BLOB);")?;
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//! db.execute(
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//! "INSERT INTO test (content) VALUES (ZEROBLOB(10))",
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//! NO_PARAMS,
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//! )?;
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//! // Insert a BLOB into the `content` column of `test_table`. Note that the Blob
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//! // I/O API provides no way of inserting or resizing BLOBs in the DB -- this
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//! // must be done via SQL.
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//! db.execute(
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//! "INSERT INTO test_table (content) VALUES (ZEROBLOB(10))",
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//! NO_PARAMS,
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//! )?;
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//!
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//! let rowid = db.last_insert_rowid();
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//! let mut blob = db.blob_open(DatabaseName::Main, "test", "content", rowid, false)?;
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//! // Get the row id off the BLOB we just inserted.
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//! let rowid = db.last_insert_rowid();
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//! // Open the BLOB we just inserted for IO.
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//! let mut blob = db.blob_open(DatabaseName::Main, "test_table", "content", rowid, false)?;
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//!
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//! // Make sure to test that the number of bytes written matches what you expect;
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//! // if you try to write too much, the data will be truncated to the size of the
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//! // BLOB.
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//! let bytes_written = blob.write(b"01234567")?;
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//! assert_eq!(bytes_written, 8);
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//! // Write some data into the blob. Make sure to test that the number of bytes
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//! // written matches what you expect; if you try to write too much, the data
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//! // will be truncated to the size of the BLOB.
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//! let bytes_written = blob.write(b"01234567")?;
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//! assert_eq!(bytes_written, 8);
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//!
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//! // Same guidance - make sure you check the number of bytes read!
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//! blob.seek(SeekFrom::Start(0))?;
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//! let mut buf = [0u8; 20];
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//! let bytes_read = blob.read(&mut buf[..])?;
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//! assert_eq!(bytes_read, 10); // note we read 10 bytes because the blob has size 10
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//! // Move back to the start and read into a local buffer.
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//! // Same guidance - make sure you check the number of bytes read!
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//! blob.seek(SeekFrom::Start(0))?;
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//! let mut buf = [0u8; 20];
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//! let bytes_read = blob.read(&mut buf[..])?;
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//! assert_eq!(bytes_read, 10); // note we read 10 bytes because the blob has size 10
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//!
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//! db.execute("INSERT INTO test (content) VALUES (?)", &[ZeroBlob(64)])?;
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//! // Insert another BLOB, this time using a parameter passed in from
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//! // rust (potentially with a dynamic size).
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//! db.execute("INSERT INTO test_table (content) VALUES (?)", &[ZeroBlob(64)])?;
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//!
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//! // given a new row ID, we can reopen the blob on that row
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//! let rowid = db.last_insert_rowid();
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//! blob.reopen(rowid)?;
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//! // given a new row ID, we can reopen the blob on that row
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//! let rowid = db.last_insert_rowid();
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//! blob.reopen(rowid)?;
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//! // Just check that the size is right.
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//! assert_eq!(blob.len(), 64);
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//! # Ok(())
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//! # }
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//! ```
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//!
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//! assert_eq!(blob.size(), 64);
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//! Ok(())
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//! }
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//! # Example (Positional)
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//!
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//! ```rust
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//! # use rusqlite::blob::ZeroBlob;
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//! # use rusqlite::{Connection, DatabaseName, NO_PARAMS};
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//! # use std::error::Error;
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//! # fn main() -> Result<(), Box<dyn Error>> {
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//! let db = Connection::open_in_memory()?;
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//! db.execute_batch("CREATE TABLE test_table (content BLOB);")?;
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//! // Insert a blob into the `content` column of `test_table`. Note that the Blob
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//! // I/O API provides no way of inserting or resizing blobs in the DB -- this
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//! // must be done via SQL.
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//! db.execute(
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//! "INSERT INTO test_table (content) VALUES (ZEROBLOB(10))",
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//! NO_PARAMS,
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//! )?;
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//! // Get the row id off the blob we just inserted.
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//! let rowid = db.last_insert_rowid();
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//! // Open the blob we just inserted for IO.
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//! let mut blob = db.blob_open(DatabaseName::Main, "test_table", "content", rowid, false)?;
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//! // Write some data into the blob.
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//! blob.write_at(b"ABCDEF", 2)?;
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//!
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//! // Read the whole blob into a local buffer.
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//! let mut buf = [0u8; 10];
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//! blob.read_at_exact(&mut buf, 0)?;
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//! assert_eq!(&buf, b"\0\0ABCDEF\0\0");
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//!
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//! // Insert another blob, this time using a parameter passed in from
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//! // rust (potentially with a dynamic size).
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//! db.execute("INSERT INTO test_table (content) VALUES (?)", &[ZeroBlob(64)])?;
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//!
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//! // given a new row ID, we can reopen the blob on that row
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//! let rowid = db.last_insert_rowid();
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//! blob.reopen(rowid)?;
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//! assert_eq!(blob.len(), 64);
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//! # Ok(())
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//! # }
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//! ```
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use std::cmp::min;
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use std::io;
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@ -60,10 +194,14 @@ use super::ffi;
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use super::types::{ToSql, ToSqlOutput};
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use crate::{Connection, DatabaseName, Result};
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/// `feature = "blob"` Handle to an open BLOB.
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mod pos_io;
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/// `feature = "blob"` Handle to an open BLOB. See [`rusqlite::blob`](crate::blob) documentation for
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/// in-depth discussion.
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pub struct Blob<'conn> {
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conn: &'conn Connection,
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blob: *mut ffi::sqlite3_blob,
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// used by std::io implementations,
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pos: i32,
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}
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@ -128,6 +266,17 @@ impl Blob<'_> {
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unsafe { ffi::sqlite3_blob_bytes(self.blob) }
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}
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/// Return the current size in bytes of the BLOB.
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pub fn len(&self) -> usize {
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use std::convert::TryInto;
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self.size().try_into().unwrap()
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}
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/// Return true if the BLOB is empty.
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pub fn is_empty(&self) -> bool {
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self.size() == 0
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}
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/// Close a BLOB handle.
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///
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/// Calling `close` explicitly is not required (the BLOB will be closed
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@ -161,7 +310,8 @@ impl io::Read for Blob<'_> {
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if n <= 0 {
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return Ok(0);
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}
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let rc = unsafe { ffi::sqlite3_blob_read(self.blob, buf.as_ptr() as *mut _, n, self.pos) };
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let rc =
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unsafe { ffi::sqlite3_blob_read(self.blob, buf.as_mut_ptr() as *mut _, n, self.pos) };
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self.conn
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.decode_result(rc)
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.map(|_| {
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175
src/blob/pos_io.rs
Normal file
175
src/blob/pos_io.rs
Normal file
@ -0,0 +1,175 @@
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use super::Blob;
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use std::convert::TryFrom;
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use std::mem::MaybeUninit;
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use std::slice::from_raw_parts_mut;
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use crate::ffi;
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use crate::{Error, Result};
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impl<'conn> Blob<'conn> {
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/// Write `buf` to `self` starting at `write_start`, returning an error if
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/// `write_start + buf.len()` is past the end of the blob.
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///
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/// If an error is returned, no data is written.
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///
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/// Note: the blob cannot be resized using this function -- that must be
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/// done using SQL (for example, an `UPDATE` statement).
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///
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/// Note: This is part of the positional I/O API, and thus takes an absolute
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/// position write to, instead of using the internal position that can be
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/// manipulated by the `std::io` traits.
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pub fn write_at(&mut self, buf: &[u8], write_start: usize) -> Result<()> {
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let len = self.len();
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if buf.len().saturating_add(write_start) > len {
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return Err(Error::BlobSizeError);
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}
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// We know `len` fits in an `i32`, so either:
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//
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// 1. `buf.len() + write_start` overflows, in which case we'd hit the
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// return above (courtesy of `saturating_add`).
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//
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// 2. `buf.len() + write_start` doesn't overflow but is larger than len,
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// in which case ditto.
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//
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// 3. `buf.len() + write_start` doesn't overflow but is less than len.
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// This means that both `buf.len()` and `write_start` can also be
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// losslessly converted to i32, since `len` came from an i32.
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// Sanity check the above.
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debug_assert!(i32::try_from(write_start).is_ok() && i32::try_from(buf.len()).is_ok());
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unsafe {
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check!(ffi::sqlite3_blob_write(
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self.blob,
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buf.as_ptr() as *const _,
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buf.len() as i32,
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write_start as i32,
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));
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}
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Ok(())
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}
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/// Read as much as possible from `offset` to `offset + buf.len()` out of
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/// `self`, writing into `buf`. On success, returns the number of bytes
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/// written.
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///
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/// If there's insufficient data in `self`, then the returned value will be
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/// less than `buf.len()`.
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///
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/// See also [`Blob::raw_read_at`], which can take an uninitialized buffer,
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/// or [`Blob::read_at_exact`] which returns an error if the entire `buf` is
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/// not read.
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///
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/// Note: This is part of the positional I/O API, and thus takes an absolute
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/// position to read from, instead of using the internal position that can
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/// be manipulated by the `std::io` traits. Consequently, it does not change
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/// that value. either.
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pub fn read_at(&self, buf: &mut [u8], read_start: usize) -> Result<usize> {
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// Safety: this is safe because `raw_read_at` never stores uninitialized
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// data into `as_uninit`.
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let as_uninit: &mut [MaybeUninit<u8>] =
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unsafe { from_raw_parts_mut(buf.as_mut_ptr() as *mut _, buf.len()) };
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self.raw_read_at(as_uninit, read_start).map(|s| s.len())
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}
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/// Read as much as possible from `offset` to `offset + buf.len()` out of
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/// `self`, writing into `buf`. On success, returns the portion of `buf`
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/// which was initialized by this call.
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///
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/// If there's insufficient data in `self`, then the returned value will be
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/// shorter than `buf`.
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///
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/// See also [`Blob::read_at`], which takes a `&mut [u8]` buffer instead of
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/// a slice of `MaybeUninit<u8>`.
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///
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/// Note: This is part of the positional I/O API, and thus takes an absolute
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/// position to read from, instead of using the internal position that can
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/// be manipulated by the `std::io` traits. Consequently, it does not change
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/// that value. either.
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pub fn raw_read_at<'a>(
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&self,
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buf: &'a mut [MaybeUninit<u8>],
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read_start: usize,
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) -> Result<&'a mut [u8]> {
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let len = self.len();
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let read_len = match len.checked_sub(read_start) {
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None | Some(0) => 0,
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Some(v) => v.min(buf.len()),
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};
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if read_len == 0 {
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// We could return `Ok(&mut [])`, but it seems confusing that the
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// pointers don't match, so fabricate a empty slice of u8 with the
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// same base pointer as `buf`.
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let empty = unsafe { from_raw_parts_mut(buf.as_mut_ptr() as *mut u8, 0) };
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return Ok(empty);
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}
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// At this point we believe `read_start as i32` is lossless because:
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//
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// 1. `len as i32` is known to be lossless, since it comes from a SQLite
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// api returning an i32.
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//
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// 2. If we got here, `len.checked_sub(read_start)` was Some (or else
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// we'd have hit the `if read_len == 0` early return), so `len` must
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// be larger than `read_start`, and so it must fit in i32 as well.
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debug_assert!(i32::try_from(read_start).is_ok());
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// We also believe that `read_start + read_len <= len` because:
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//
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// 1. This is equivalent to `read_len <= len - read_start` via algebra.
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// 2. We know that `read_len` is `min(len - read_start, buf.len())`
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// 3. Expanding, this is `min(len - read_start, buf.len()) <= len - read_start`,
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// or `min(A, B) <= A` which is clearly true.
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//
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// Note that this stuff is in debug_assert so no need to use checked_add
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||||
// and such -- we'll always panic on overflow in debug builds.
|
||||
debug_assert!(read_start + read_len <= len);
|
||||
|
||||
// These follow naturally.
|
||||
debug_assert!(
|
||||
buf.len() <= read_len
|
||||
&& i32::try_from(buf.len()).is_ok()
|
||||
&& i32::try_from(read_len).is_ok()
|
||||
);
|
||||
|
||||
unsafe {
|
||||
check!(ffi::sqlite3_blob_read(
|
||||
self.blob,
|
||||
buf.as_mut_ptr() as *mut _,
|
||||
read_len as i32,
|
||||
read_start as i32,
|
||||
));
|
||||
|
||||
Ok(from_raw_parts_mut(buf.as_mut_ptr() as *mut u8, read_len))
|
||||
}
|
||||
}
|
||||
|
||||
/// Equivalent to [`Blob::read_at`], but returns a `BlobSizeError` if `buf`
|
||||
/// is not fully initialized.
|
||||
pub fn read_at_exact(&self, buf: &mut [u8], read_start: usize) -> Result<()> {
|
||||
let n = self.read_at(buf, read_start)?;
|
||||
if n != buf.len() {
|
||||
Err(Error::BlobSizeError)
|
||||
} else {
|
||||
Ok(())
|
||||
}
|
||||
}
|
||||
|
||||
/// Equivalent to [`Blob::raw_read_at`], but returns a `BlobSizeError` if
|
||||
/// `buf` is not fully initialized.
|
||||
pub fn raw_read_at_exact<'a>(
|
||||
&self,
|
||||
buf: &'a mut [MaybeUninit<u8>],
|
||||
read_start: usize,
|
||||
) -> Result<&'a mut [u8]> {
|
||||
let buflen = buf.len();
|
||||
let initted = self.raw_read_at(buf, read_start)?;
|
||||
if initted.len() != buflen {
|
||||
Err(Error::BlobSizeError)
|
||||
} else {
|
||||
Ok(initted)
|
||||
}
|
||||
}
|
||||
}
|
14
src/error.rs
14
src/error.rs
@ -109,6 +109,12 @@ pub enum Error {
|
||||
/// parameters in the query. The first `usize` is how many parameters were
|
||||
/// given, the 2nd is how many were expected.
|
||||
InvalidParameterCount(usize, usize),
|
||||
|
||||
/// Returned from various functions in the Blob IO positional API. For
|
||||
/// example, [`Blob::raw_read_at_exact`](crate::blob::Blob::raw_read_at_exact)
|
||||
/// will return it if the blob has insufficient data.
|
||||
#[cfg(feature = "blob")]
|
||||
BlobSizeError,
|
||||
}
|
||||
|
||||
impl PartialEq for Error {
|
||||
@ -151,6 +157,8 @@ impl PartialEq for Error {
|
||||
(Error::InvalidParameterCount(i1, n1), Error::InvalidParameterCount(i2, n2)) => {
|
||||
i1 == i2 && n1 == n2
|
||||
}
|
||||
#[cfg(feature = "blob")]
|
||||
(Error::BlobSizeError, Error::BlobSizeError) => true,
|
||||
(..) => false,
|
||||
}
|
||||
}
|
||||
@ -262,6 +270,9 @@ impl fmt::Display for Error {
|
||||
#[cfg(feature = "functions")]
|
||||
Error::GetAuxWrongType => write!(f, "get_aux called with wrong type"),
|
||||
Error::MultipleStatement => write!(f, "Multiple statements provided"),
|
||||
|
||||
#[cfg(feature = "blob")]
|
||||
Error::BlobSizeError => "Blob size is insufficient".fmt(f),
|
||||
}
|
||||
}
|
||||
}
|
||||
@ -306,6 +317,9 @@ impl error::Error for Error {
|
||||
|
||||
#[cfg(feature = "functions")]
|
||||
Error::GetAuxWrongType => None,
|
||||
|
||||
#[cfg(feature = "blob")]
|
||||
Error::BlobSizeError => None,
|
||||
}
|
||||
}
|
||||
}
|
||||
|
Loading…
Reference in New Issue
Block a user