tds_protocol/sql_batch.rs
1//! SQL batch request encoding.
2//!
3//! This module provides encoding for SQL batch requests (packet type 0x01).
4//! Per MS-TDS spec, a SQL batch contains:
5//! - ALL_HEADERS section (required for TDS 7.2+)
6//! - SQL text encoded as UTF-16LE
7
8use bytes::{BufMut, Bytes, BytesMut};
9
10use crate::codec::write_utf16_string;
11use crate::prelude::*;
12
13/// Low-level `SQLBatch` wire encoders shared across the workspace crates.
14///
15/// Internal plumbing reached cross-crate only via [`crate::__private`]; not
16/// public API and exempt from semver guarantees (see #242). The public
17/// [`SqlBatch`] builder below is the user-facing API.
18pub(crate) mod sealed {
19 use super::*;
20
21 /// Encode a SQL batch request with auto-commit (no explicit transaction).
22 ///
23 /// The SQL batch packet payload includes:
24 /// 1. ALL_HEADERS section (required for TDS 7.2+)
25 /// 2. SQL text encoded as UTF-16LE
26 ///
27 /// This function returns the encoded payload (without the packet header).
28 /// For requests within an explicit transaction, use [`encode_sql_batch_with_transaction`].
29 ///
30 /// # Example
31 ///
32 /// ```
33 /// use tds_protocol::__private::encode_sql_batch;
34 ///
35 /// let sql = "SELECT * FROM users WHERE id = 1";
36 /// let payload = encode_sql_batch(sql);
37 ///
38 /// // Payload includes ALL_HEADERS + UTF-16LE encoded SQL
39 /// assert!(!payload.is_empty());
40 /// ```
41 #[must_use]
42 pub fn encode_sql_batch(sql: &str) -> Bytes {
43 encode_sql_batch_with_transaction(sql, 0)
44 }
45
46 /// Encode a SQL batch request with a transaction descriptor.
47 ///
48 /// Per MS-TDS spec, when executing within an explicit transaction:
49 /// - The `transaction_descriptor` MUST be the value returned by the server
50 /// in the BeginTransaction EnvChange token.
51 /// - For auto-commit mode (no explicit transaction), use 0.
52 ///
53 /// # Arguments
54 ///
55 /// * `sql` - The SQL text to execute
56 /// * `transaction_descriptor` - The transaction descriptor from BeginTransaction EnvChange,
57 /// or 0 for auto-commit mode.
58 ///
59 /// # Example
60 ///
61 /// ```
62 /// use tds_protocol::__private::encode_sql_batch_with_transaction;
63 ///
64 /// // Within a transaction with descriptor 0x1234567890ABCDEF
65 /// let sql = "INSERT INTO users VALUES (1, 'Alice')";
66 /// let tx_descriptor = 0x1234567890ABCDEF_u64;
67 /// let payload = encode_sql_batch_with_transaction(sql, tx_descriptor);
68 /// ```
69 #[must_use]
70 pub fn encode_sql_batch_with_transaction(sql: &str, transaction_descriptor: u64) -> Bytes {
71 // Capacity: ALL_HEADERS (22 bytes) + SQL UTF-16LE (sql.len() * 2)
72 let mut buf = BytesMut::with_capacity(22 + sql.len() * 2);
73
74 // ALL_HEADERS section (required for TDS 7.2+)
75 // Per MS-TDS spec: ALL_HEADERS = TotalLength + Headers
76 let all_headers_start = buf.len();
77 buf.put_u32_le(0); // Total length placeholder
78
79 // Transaction descriptor header (type 0x0002)
80 // Per MS-TDS 2.2.5.3: HeaderLength (4) + HeaderType (2) + TransactionDescriptor (8) + OutstandingRequestCount (4)
81 buf.put_u32_le(18); // Header length = 18 bytes
82 buf.put_u16_le(0x0002); // Header type: transaction descriptor
83 buf.put_u64_le(transaction_descriptor); // Transaction descriptor from BeginTransaction EnvChange
84 buf.put_u32_le(1); // Outstanding request count (1 for non-MARS connections)
85
86 // Fill in ALL_HEADERS total length
87 let all_headers_len = buf.len() - all_headers_start;
88 let len_bytes = (all_headers_len as u32).to_le_bytes();
89 buf[all_headers_start..all_headers_start + 4].copy_from_slice(&len_bytes);
90
91 // SQL text as UTF-16LE
92 write_utf16_string(&mut buf, sql);
93
94 buf.freeze()
95 }
96}
97
98// Keep `encode_sql_batch` reachable for the intra-crate `SqlBatch::encode`
99// caller below; off the public surface (see crate::__private).
100pub(crate) use sealed::encode_sql_batch;
101
102/// SQL batch builder for more complex batches.
103///
104/// This can be used to build batches with multiple statements
105/// or to add headers for specific features.
106#[derive(Debug, Clone)]
107pub struct SqlBatch {
108 sql: String,
109}
110
111impl SqlBatch {
112 /// Create a new SQL batch.
113 #[must_use]
114 pub fn new(sql: impl Into<String>) -> Self {
115 Self { sql: sql.into() }
116 }
117
118 /// Get the SQL text.
119 #[must_use]
120 pub fn sql(&self) -> &str {
121 &self.sql
122 }
123
124 /// Encode the SQL batch to bytes.
125 #[must_use]
126 pub fn encode(&self) -> Bytes {
127 encode_sql_batch(&self.sql)
128 }
129}
130
131#[cfg(test)]
132#[allow(clippy::unwrap_used)]
133mod tests {
134 use super::*;
135
136 #[test]
137 fn test_encode_sql_batch() {
138 let sql = "SELECT 1";
139 let payload = encode_sql_batch(sql);
140
141 // ALL_HEADERS (22 bytes) + UTF-16LE encoded (8 chars * 2 bytes = 16 bytes) = 38 bytes
142 assert_eq!(payload.len(), 38);
143
144 // Verify ALL_HEADERS section
145 // Total length at bytes 0-3 (little-endian)
146 assert_eq!(&payload[0..4], &[22, 0, 0, 0]); // TotalLength = 22
147
148 // Header length at bytes 4-7
149 assert_eq!(&payload[4..8], &[18, 0, 0, 0]); // HeaderLength = 18
150
151 // Header type at bytes 8-9
152 assert_eq!(&payload[8..10], &[0x02, 0x00]); // Transaction descriptor
153
154 // Verify UTF-16LE SQL starts at byte 22
155 // 'S' = 0x53, 'E' = 0x45, etc.
156 assert_eq!(payload[22], b'S');
157 assert_eq!(payload[23], 0);
158 assert_eq!(payload[24], b'E');
159 assert_eq!(payload[25], 0);
160 }
161
162 #[test]
163 fn test_sql_batch_builder() {
164 let batch = SqlBatch::new("SELECT @@VERSION");
165 assert_eq!(batch.sql(), "SELECT @@VERSION");
166
167 let payload = batch.encode();
168 assert!(!payload.is_empty());
169 }
170
171 #[test]
172 fn test_empty_batch() {
173 let payload = encode_sql_batch("");
174 // Even empty SQL has ALL_HEADERS (22 bytes)
175 assert_eq!(payload.len(), 22);
176 }
177}