Class: Tina4::Database

Inherits:

Object

• Object
• Tina4::Database

Defined in:

lib/tina4/database.rb

Constant Summary

DRIVERS =

{
  "sqlite" => "Tina4::Drivers::SqliteDriver",
  "sqlite3" => "Tina4::Drivers::SqliteDriver",
  "postgres" => "Tina4::Drivers::PostgresDriver",
  "postgresql" => "Tina4::Drivers::PostgresDriver",
  "mysql" => "Tina4::Drivers::MysqlDriver",
  "mssql" => "Tina4::Drivers::MssqlDriver",
  "sqlserver" => "Tina4::Drivers::MssqlDriver",
  "firebird" => "Tina4::Drivers::FirebirdDriver",
  "mongodb" => "Tina4::Drivers::MongodbDriver",
  "mongo" => "Tina4::Drivers::MongodbDriver",
  "odbc" => "Tina4::Drivers::OdbcDriver"
}.freeze

Instance Attribute Summary

• #connected ⇒ Object readonly

  Returns the value of attribute connected.

• #driver ⇒ Object readonly

  Returns the value of attribute driver.

• #driver_name ⇒ Object readonly

  Returns the value of attribute driver_name.

• #pool ⇒ Object readonly

  Returns the value of attribute pool.

Class Method Summary

• .create(url, username: "", password: "", pool: nil) ⇒ Object

  Static factory — cross-framework consistency: Database.create(url).

• .from_env(env_key: "TINA4_DATABASE_URL", pool: nil) ⇒ Object

  Construct a Database from environment variables.

• .get_connection(url_or_env_key = "TINA4_DATABASE_URL", username: nil, password: nil, pool: nil) ⇒ Object

  Open a database connection — convention name matching SQLAlchemy engine.connect() and the cross-framework Database.get_connection() surface shipped in 3.13.x.

• .register_instance(db) ⇒ Object

  Register a live connection in the class-level WeakRef registry.

• .reset_request_caches ⇒ Object

  Clear the request-scoped query cache on every live Database instance.

• .strip_trailing_semicolons(sql) ⇒ Object

  v3.13.12 — strip trailing ‘;` from user SQL before the framework wraps it with COUNT(*) subqueries or appends LIMIT/OFFSET.

Instance Method Summary

• #active_count ⇒ Object

  Number of connections currently created (lazy pool connections counted).

• #cache_clear ⇒ Object
• #cache_new_request ⇒ Object

  Clear the request-scoped query cache at the start of an HTTP request.

• #cache_stats ⇒ Object

  ── Query Cache ──────────────────────────────────────────────.

• #checkin(_driver) ⇒ Object

  Return a driver to the pool.

• #checkout ⇒ Object

  Check out a driver from the pool (or return the single driver).

• #close ⇒ Object
• #close_all ⇒ Object

  Close all pooled connections (or the single connection).

• #columns(table_name) ⇒ Object (also: #get_columns)
• #commit ⇒ Object

  Commit the current transaction and release the driver pin.

• #connect ⇒ Object
• #current_driver ⇒ Object

  Get the current driver — from pool (round-robin) or single connection.

• #delete(table, filter = {}, params = nil) ⇒ Object
• #execute(sql, params = []) ⇒ Object

  Execute a write statement.

• #execute_many(sql, params_list = []) ⇒ Object

  Run one statement once per row in a SINGLE transaction on a SINGLE connection, returning a DatabaseResult.

• #fetch(sql, params = [], limit: 100, offset: nil, no_cache: false) ⇒ Object

  Fetch rows with pagination, returning a DatabaseResult.

• #fetch_all(sql, params = [], limit: nil, offset: nil, no_cache: false) ⇒ Object

  Fetch rows and return the records array directly.

• #fetch_one(sql, params = [], no_cache: false) ⇒ Object

  Fetch a single row (or nil).

• #get_adapter ⇒ Integer

  Pre-generate the next available primary key ID using engine-aware strategies.

• #get_database_type ⇒ Object

  Return the normalised engine name for this connection.

• #get_error ⇒ Object

  Return the last execute() error message, or nil.

• #get_last_id ⇒ Object

  Return the last insert ID from execute() or insert().

• #get_next_id(table, pk_column: "id", generator_name: nil) ⇒ Object
• #initialize(connection_string = nil, username: nil, password: nil, driver_name: nil, pool: nil) ⇒ Database constructor

  A new instance of Database.

• #insert(table, data) ⇒ Object
• #pool_size ⇒ Object

  Returns the configured pool size, or 1 for single-connection mode.

• #rollback ⇒ Object

  Roll back the current transaction and release the driver pin.

• #start_transaction ⇒ Object

  Begin a transaction without a block — matches PHP/Python/Node API.

• #table_exists?(table_name) ⇒ Boolean (also: #table_exists)
• #tables ⇒ Object (also: #get_tables)
• #transaction ⇒ Object
• #update(table, data, filter = {}, params = nil) ⇒ Object

Constructor Details

#initialize(connection_string = nil, username: nil, password: nil, driver_name: nil, pool: nil) ⇒ Database

Returns a new instance of Database.

# File 'lib/tina4/database.rb', line 180

def initialize(connection_string = nil, username: nil, password: nil, driver_name: nil, pool: nil)
  @connection_string = connection_string || ENV["TINA4_DATABASE_URL"]
  @username = username || ENV["TINA4_DATABASE_USERNAME"]
  @password = password || ENV["TINA4_DATABASE_PASSWORD"]
  @driver_name = driver_name || detect_driver(@connection_string)
  # TINA4_DB_POOL falls back when caller doesn't pass `pool:` explicitly.
  # Default 0 = single connection, N>0 = N pooled connections (round-robin).
  @pool_size = if pool.nil?
                 (ENV["TINA4_DB_POOL"] || "0").to_i
               else
                 pool
               end
  @connected = false

  # Per-instance thread-local key for the transaction adapter pin.
  # Without this pin, every Database method call rotates to a different
  # pooled connection. Inside a transaction this silently breaks atomicity:
  # start_transaction begins on adapter A, executes autocommit on B/C, and
  # commit/rollback land on D — a no-op. start_transaction sets the pin,
  # commit/rollback clear it. While pinned, current_driver returns the same
  # driver for every call so the whole transaction runs on one connection.
  @tx_pin_key = :"tina4_pinned_adapter_#{object_id}"
  # Per-thread nested-transaction depth counter (DB-contract C, v3.13.37).
  # A second start_transaction on a thread that already holds the pin is a
  # double-begin: most engines silently commit or no-op the inner BEGIN,
  # leaving the connection mid-transaction. We warn + increment depth instead
  # of re-beginning; the inner commit just decrements; the outer commit/any
  # rollback releases the pin.
  @tx_depth_key = :"tina4_tx_depth_#{object_id}"

  # Query cache. One store, two layers (parity with Python connection.py).
  # BOTH layers are OPT-IN — the DEFAULT is OFF.
  #
  # A request-scoped cache that defaults ON is a footgun: a SELECT MAX(id)
  # (or generator read) right before an INSERT in the SAME request returns a
  # cached pre-write value → duplicate primary keys, and any read-after-write
  # in one request shows stale state. So both layers default OFF:
  #   • request-scoped (opt-in, TINA4_AUTO_CACHING=true) — dedupes identical
  #     SELECTs to protect the DB from rapid repeat reads on read-heavy
  #     endpoints. Cleared at the START of every HTTP request (so it never
  #     serves rows across requests) AND on any write, with a short safety
  #     TTL (5s) for non-request contexts (scripts/workers).
  #   • persistent (opt-in, TINA4_DB_CACHE=true) — cross-request TTL cache
  #     that is NOT cleared per request; entries expire by TINA4_DB_CACHE_TTL.
  @cache_persistent = truthy?(ENV["TINA4_DB_CACHE"])
  # Default OFF; honour the same truthy semantics the framework uses
  # (mirrors Python's is_truthy(get("TINA4_AUTO_CACHING", "false"))).
  @cache_request_scoped = truthy?(ENV["TINA4_AUTO_CACHING"] || "false")
  @cache_enabled = @cache_persistent || @cache_request_scoped
  @cache_ttl = if @cache_persistent
                 (ENV["TINA4_DB_CACHE_TTL"] || "30").to_i
               else
                 (ENV["TINA4_AUTO_CACHING_TTL"] || "5").to_i
               end
  @query_cache = {}  # key => { expires_at:, value: }
  @cache_hits = 0
  @cache_misses = 0
  @cache_mutex = Mutex.new

  # Persistent mode may route through the unified CacheBackend (redis/
  # valkey/memcached/mongodb/database via TINA4_DB_CACHE_BACKEND) so
  # multiple instances can share one cache with global write-invalidation.
  # Request-scoped mode always stays in-process (the @query_cache dict).
  # The DatabaseResult is serialized to a JSON-friendly Hash before storing
  # and reconstructed on read so shared backends work cross-instance.
  @cache_backend = nil
  if @cache_persistent
    begin
      @cache_backend = Tina4::CacheBackends.create_backend(
        backend: ENV["TINA4_DB_CACHE_BACKEND"] || "memory",
        url: ENV["TINA4_DB_CACHE_URL"],
        max_entries: 1000
      )
    rescue StandardError
      @cache_backend = nil # fall back to the in-process dict
    end
  end

  # Autocommit is ON by default — parity with Python/PHP/Node. A standalone
  # write (execute/insert/update/delete made OUTSIDE an explicit
  # start_transaction()/commit() block) commits on its own connection before
  # returning, so a write actually persists. An UNSET TINA4_AUTOCOMMIT is
  # treated as TRUE; set TINA4_AUTOCOMMIT=false for strict manual mode (every
  # write needs an explicit commit). Inside an explicit transaction the
  # framework-issued commit is suppressed (gated on the thread tx-pin), so
  # explicit transactions stay atomic. Mirrors Python's
  # DatabaseAdapter._autocommit ("true"/"1"/"yes", default "true").
  @autocommit = truthy?(ENV.fetch("TINA4_AUTOCOMMIT", "true"))

  # Register this connection so Tina4::Database.reset_request_caches can
  # clear its request-scoped entries at the start of every HTTP request.
  Tina4::Database.register_instance(self)

  if @pool_size > 0
    # Pooled mode — create a ConnectionPool with lazy driver creation
    @pool = ConnectionPool.new(
      @pool_size,
      driver_factory: method(:create_driver),
      connection_string: @connection_string,
      username: @username,
      password: @password
    )
    @driver = nil
    @connected = true
  else
    # Single-connection mode — current behavior
    @pool = nil
    @driver = create_driver
    connect
  end
end

Instance Attribute Details

#connected ⇒ Object (readonly)

Returns the value of attribute connected.

# File 'lib/tina4/database.rb', line 70

def connected
  @connected
end

#driver ⇒ Object (readonly)

Returns the value of attribute driver.

# File 'lib/tina4/database.rb', line 70

def driver
  @driver
end

#driver_name ⇒ Object (readonly)

Returns the value of attribute driver_name.

# File 'lib/tina4/database.rb', line 70

def driver_name
  @driver_name
end

#pool ⇒ Object (readonly)

Returns the value of attribute pool.

# File 'lib/tina4/database.rb', line 70

def pool
  @pool
end

Class Method Details

.create(url, username: "", password: "", pool: nil) ⇒ Object

Static factory — cross-framework consistency: Database.create(url)

# File 'lib/tina4/database.rb', line 139

def self.create(url, username: "", password: "", pool: nil)
  new(url, username: username.empty? ? nil : username,
           password: password.empty? ? nil : password,
           pool: pool)
end

.from_env(env_key: "TINA4_DATABASE_URL", pool: nil) ⇒ Object

Construct a Database from environment variables. Returns nil if the named env var is not set.

# File 'lib/tina4/database.rb', line 147

def self.from_env(env_key: "TINA4_DATABASE_URL", pool: nil)
  url = ENV[env_key]
  return nil if url.nil? || url.strip.empty?

  new(url,
      username: ENV["TINA4_DATABASE_USERNAME"],
      password: ENV["TINA4_DATABASE_PASSWORD"],
      pool: pool)
end

.get_connection(url_or_env_key = "TINA4_DATABASE_URL", username: nil, password: nil, pool: nil) ⇒ Object

Open a database connection — convention name matching SQLAlchemy engine.connect() and the cross-framework Database.get_connection() surface shipped in 3.13.x.

The first argument may be either a URL (containing ‘://` or `sqlite:`) or an env-var name. Falls back to in-memory SQLite when no URL resolves — matches Python tina4_python’s default behaviour.

db = Tina4::Database.get_connection                     # from TINA4_DATABASE_URL
db = Tina4::Database.get_connection("sqlite::memory:")  # explicit URL
db = Tina4::Database.get_connection("postgres://...", username: "u", password: "p")

# File 'lib/tina4/database.rb', line 168

def self.get_connection(url_or_env_key = "TINA4_DATABASE_URL", username: nil, password: nil, pool: nil)
  if url_or_env_key.include?("://") || url_or_env_key.start_with?("sqlite:")
    return new(url_or_env_key, username: username, password: password, pool: pool)
  end

  db = from_env(env_key: url_or_env_key, pool: pool)
  return db if db

  # Fallback: in-memory SQLite — matches Python parity.
  new("sqlite::memory:", username: username, password: password, pool: pool)
end

.register_instance(db) ⇒ Object

Register a live connection in the class-level WeakRef registry.

# File 'lib/tina4/database.rb', line 82

def register_instance(db)
  @instances_mutex.synchronize do
    @instances << WeakRef.new(db)
  end
end

.reset_request_caches ⇒ Object

Clear the request-scoped query cache on every live Database instance.

The request dispatcher calls this at the start of each HTTP request so request-scoped caching never serves rows across requests (zero cross-request staleness). Persistent-mode connections are left alone. Dead WeakRefs (closed/GC’d connections) are pruned as we go.

# File 'lib/tina4/database.rb', line 94

def reset_request_caches
  @instances_mutex.synchronize do
    @instances.reject! do |ref|
      begin
        inst = ref.__getobj__
        inst.cache_new_request
        false
      rescue WeakRef::RefError, StandardError
        true  # dead reference (or errored) — prune it
      end
    end
  end
end

.strip_trailing_semicolons(sql) ⇒ Object

v3.13.12 — strip trailing ‘;` from user SQL before the framework wraps it with COUNT(*) subqueries or appends LIMIT/OFFSET. Without this, ““SELECT * FROM t;”“ produces ““SELECT * FROM t; LIMIT 100 OFFSET 0”“ — a syntax error on every engine. Internal semicolons (inside string literals, between meaningful statements) are left alone; drivers reject those if multi-statement isn’t supported.

# File 'lib/tina4/database.rb', line 129

def self.strip_trailing_semicolons(sql)
  return sql if sql.nil? || sql.empty?
  stripped = sql.rstrip
  while stripped.end_with?(";")
    stripped = stripped[0..-2].rstrip
  end
  stripped
end

Instance Method Details

#active_count ⇒ Object

Number of connections currently created (lazy pool connections counted).

# File 'lib/tina4/database.rb', line 842

def active_count
  if @pool
    @pool.active_count
  else
    @connected ? 1 : 0
  end
end

#cache_clear ⇒ Object

# File 'lib/tina4/database.rb', line 362

def cache_clear
  @cache_backend.clear if @cache_backend
  @cache_mutex.synchronize do
    @query_cache.clear
    @cache_hits = 0
    @cache_misses = 0
  end
end

#cache_new_request ⇒ Object

Clear the request-scoped query cache at the start of an HTTP request.

No-op in persistent mode (TINA4_DB_CACHE=true) so cross-request entries survive up to their TTL. Cumulative hit/miss counters are preserved.

# File 'lib/tina4/database.rb', line 375

def cache_new_request
  return unless @cache_request_scoped && !@cache_persistent

  @cache_mutex.synchronize { @query_cache.clear }
end

#cache_stats ⇒ Object

── Query Cache ──────────────────────────────────────────────

# File 'lib/tina4/database.rb', line 335

def cache_stats
  if @cache_backend
    bs = @cache_backend.stats
    return {
      enabled: @cache_enabled,
      mode: cache_mode,
      hits: @cache_hits,
      misses: @cache_misses,
      size: bs[:size],
      backend: bs[:backend] || @cache_backend.name,
      ttl: @cache_ttl
    }
  end

  @cache_mutex.synchronize do
    {
      enabled: @cache_enabled,
      mode: cache_mode,
      hits: @cache_hits,
      misses: @cache_misses,
      size: @query_cache.size,
      backend: "memory",
      ttl: @cache_ttl
    }
  end
end

#checkin(_driver) ⇒ Object

Return a driver to the pool. No-op for round-robin pool or single connection.

# File 'lib/tina4/database.rb', line 856

def checkin(_driver)
  # no-op
end

#checkout ⇒ Object

Check out a driver from the pool (or return the single driver).

# File 'lib/tina4/database.rb', line 851

def checkout
  current_driver
end

#close ⇒ Object

# File 'lib/tina4/database.rb', line 308

def close
  if @pool
    @pool.close_all
  elsif @driver && @connected
    @driver.close
  end
  @connected = false
end

#close_all ⇒ Object

Close all pooled connections (or the single connection).

# File 'lib/tina4/database.rb', line 861

def close_all
  close
end

#columns(table_name) ⇒ Object Also known as: get_columns

# File 'lib/tina4/database.rb', line 796

def columns(table_name)
  current_driver.columns(table_name)
end

#commit ⇒ Object

Commit the current transaction and release the driver pin.

FAILS LOUD (v3.13.37, DB-contract C): if the underlying commit raises, capture @last_error and RE-RAISE — never swallow. On failure the transaction pin is RETAINED so the caller’s follow-up #rollback lands on the SAME connection (clearing it would leak a dirty connection back into the pool and route the rollback to a different one). The pin is cleared ONLY on a successful commit. An inner commit of an ignored nested begin (depth > 1) just decrements the depth and returns — the outer commit is the real one.

# File 'lib/tina4/database.rb', line 754

def commit
  depth = (Thread.current[@tx_depth_key] || 0)
  if depth > 1
    Thread.current[@tx_depth_key] = depth - 1
    return
  end
  current_driver.commit
  @last_error = nil
  # Success — release the pin.
  Thread.current[@tx_pin_key] = nil
  Thread.current[@tx_depth_key] = nil
rescue => e
  # Keep the pin so rollback reaches this same connection.
  @last_error = e.message
  raise
end

#connect ⇒ Object

# File 'lib/tina4/database.rb', line 292

def connect
  @driver.connect(@connection_string, username: @username, password: @password)
  @connected = true

  # Push the resolved autocommit setting down to the driver when it exposes a
  # native toggle (default ON — see @autocommit in #initialize). The
  # framework-level commit in #autocommit_standalone_write covers drivers
  # that have no native setter.
  @driver.autocommit = @autocommit if @driver.respond_to?(:autocommit=)

  Tina4::Log.info("Database connected: #{@driver_name}")
rescue => e
  Tina4::Log.error("Database connection failed: #{e.message}")
  @connected = false
end

#current_driver ⇒ Object

Get the current driver — from pool (round-robin) or single connection.

Inside a transaction, all calls must land on the SAME driver — otherwise start_transaction, execute, and commit each rotate to a different pooled connection and the transaction is meaningless. start_transaction pins the driver to the calling thread; commit/rollback release it.

# File 'lib/tina4/database.rb', line 323

def current_driver
  pinned = Thread.current[@tx_pin_key]
  return pinned if pinned
  if @pool
    @pool.checkout
  else
    @driver
  end
end

#delete(table, filter = {}, params = nil) ⇒ Object

# File 'lib/tina4/database.rb', line 555

def delete(table, filter = {}, params = nil)
  cache_invalidate if @cache_enabled
  drv = current_driver

  # List of hashes — delete each row
  if filter.is_a?(Array)
    filter.each { |row| delete(table, row) }
    return { success: true }
  end

  # String filter — raw WHERE clause with optional params
  if filter.is_a?(String)
    sql = "DELETE FROM #{table}"
    sql += " WHERE #{filter}" unless filter.empty?
    drv.execute(sql, Array(params))
    autocommit_standalone_write(drv)
    return { success: true }
  end

  # Hash filter — build WHERE from keys
  where_parts = filter.keys.map { |k| "#{k} = #{drv.placeholder}" }
  sql = "DELETE FROM #{table}"
  sql += " WHERE #{where_parts.join(' AND ')}" unless filter.empty?
  drv.execute(sql, filter.values)
  autocommit_standalone_write(drv)
  { success: true }
end

#execute(sql, params = []) ⇒ Object

Execute a write statement. FAILS LOUD — raises on a SQL error.

On a SQL error (bad SQL, constraint violation, dead/aborted connection, missing driver) the cause is captured on @last_error / #get_error AND the error is re-raised — execute() never silently returns false on failure. Almost no caller checks a boolean after every write, so the old swallow-and-return-false behaviour turned a failed INSERT/UPDATE/DELETE into a silent partial-write footgun. This mirrors fetch()/fetch_one(), which already raise, and the Python master (database.execute).

On SUCCESS the return is unchanged: a DatabaseResult when the SQL contains RETURNING, CALL, EXEC, or SELECT (truthy), otherwise true. Never false.

Higher-level callers that promise a boolean (ORM save/create_table) wrap this in begin/rescue and return false themselves; the migration runner and dev-admin/MCP DB tools catch the raise and surface it as a failed migration or a clean { error: } payload respectively.

# File 'lib/tina4/database.rb', line 624

def execute(sql, params = [])
  cache_invalidate if @cache_enabled
  drv = current_driver
  result = drv.execute(sql, params)
  @last_error = nil
  autocommit_standalone_write(drv)
  sql_upper = sql.strip.upcase
  if sql_upper.include?("RETURNING") || sql_upper.start_with?("CALL ") ||
     sql_upper.start_with?("EXEC ") || sql_upper.start_with?("SELECT ")
    return result
  end
  true
rescue => e
  @last_error = e.message
  raise
end

#execute_many(sql, params_list = []) ⇒ Object

Run one statement once per row in a SINGLE transaction on a SINGLE connection, returning a DatabaseResult.

DB-contract / batch-insert parity (mirrors the Python master’s execute_many): the WHOLE batch runs on ONE driver — pinned for the duration — so begin/execute*/commit can never scatter across pooled connections (which made affected_rows / last_id non-deterministic). It is all-or-raise (any row raising rolls the whole batch back), so:

* affected_rows is the ROW COUNT, computed deterministically from the
  number of supplied rows — NOT read from a driver rowcount. PostgreSQL's
  no-RETURNING INSERT reports cmd_tuples correctly, but other engines'
  rowcounts after a batch are unreliable, and a follow-up probe (lastval/
  SAVEPOINT) can clobber the rowcount, so the count is the supplied length.
* last_id is read from last_insert_id() on the SAME connection AFTER the
  batch, so a SERIAL/AUTOINCREMENT table surfaces the last generated id
  (nil for engines/tables with no sequence — Firebird, a no-PK table).

The pin is set here only when no transaction is already open on the thread (an outer start_transaction already pinned the driver — leave it, and let the outer commit/rollback own the lifecycle). When we pin, we own the begin/commit/rollback; when an outer tx owns the pin, we just run the rows and let the outer transaction commit them.

# File 'lib/tina4/database.rb', line 664

def execute_many(sql, params_list = [])
  params_list ||= []
  already_pinned = !Thread.current[@tx_pin_key].nil?
  drv = current_driver
  Thread.current[@tx_pin_key] = drv unless already_pinned

  begin
    drv.begin_transaction unless already_pinned
    begin
      params_list.each { |params| drv.execute(sql, params) }
      drv.commit unless already_pinned
    rescue => e
      drv.rollback unless already_pinned
      @last_error = e.message
      raise e
    end
  ensure
    Thread.current[@tx_pin_key] = nil unless already_pinned
  end

  last_id = begin
    drv.last_insert_id
  rescue StandardError
    nil
  end

  Tina4::DatabaseResult.new(
    [],
    affected_rows: params_list.length,
    last_id: last_id,
    db: self
  )
end

#fetch(sql, params = [], limit: 100, offset: nil, no_cache: false) ⇒ Object

Fetch rows with pagination, returning a DatabaseResult.

FAILS LOUD (v3.13.37, DB-contract A): a SQL error in the main query propagates — a typo’d / bad SELECT RAISES, it never silently returns an empty result. The cause is captured on @last_error / #get_error before the re-raise (parity with #execute and the Python master), so the public API can read why it failed even for engines whose driver doesn’t expose its own last_error. Because the raise happens BEFORE cache_set is reached, a buried failure is never written into the query cache.

Pass ‘no_cache: true` to bypass the query cache entirely for this single call — no lookup, no store — and run the query directly against the driver. Works for both the request-scoped auto-cache and the persistent DB cache. The default `false` preserves the cached behaviour. Parity with Python db.fetch(no_cache=) / PHP / Node.

# File 'lib/tina4/database.rb', line 415

def fetch(sql, params = [], limit: 100, offset: nil, no_cache: false)
  offset ||= 0
  drv = current_driver

  # v3.13.12: strip trailing `;` so the driver's apply_limit
  # (which appends "LIMIT N OFFSET M") doesn't produce
  # "SELECT * FROM t; LIMIT 100 OFFSET 0" — a syntax error
  # on every engine. Also helps any COUNT(*) FROM (sql)
  # subqueries downstream survive a user-supplied semicolon.
  sql = Tina4::Database.strip_trailing_semicolons(sql)

  effective_sql = sql
  # Skip appending LIMIT if SQL already has one
  has_limit = sql.upcase.split("--")[0].include?("LIMIT")
  if limit && !has_limit
    effective_sql = drv.apply_limit(effective_sql, limit, offset)
  end

  if @cache_enabled && !no_cache
    key = cache_key(effective_sql, params)
    cached = cache_get(key)
    if cached
      @cache_mutex.synchronize { @cache_hits += 1 }
      return cached
    end
    # fetch_direct RAISES on a SQL error (and captures @last_error), so a
    # failed read never reaches cache_set below — we never cache an empty
    # result produced by a buried failure.
    result = fetch_direct(drv, effective_sql, params)
    cache_set(key, result)
    @cache_mutex.synchronize { @cache_misses += 1 }
    return result
  end

  fetch_direct(drv, effective_sql, params)
end

#fetch_all(sql, params = [], limit: nil, offset: nil, no_cache: false) ⇒ Object

Fetch rows and return the records array directly.

Symmetric with fetch_one. Cross-framework parity with Python db.fetch_all() / PHP $db->fetchAll() / Node db.fetchAll().

rows = db.fetch_all("SELECT * FROM users WHERE active = ?", [1])
rows.each { |row| puts row["name"] }

Returns [] (not nil) when no rows match.

v3.13.12: default ‘limit` is nil (no truncation) — the method name says fetch_all, so it returns all matching rows. Pre-v3.13.12 silently truncated to 100. Pass an explicit `limit:` to cap.

Pass ‘no_cache: true` to bypass the query cache for this call (see #fetch).

# File 'lib/tina4/database.rb', line 396

def fetch_all(sql, params = [], limit: nil, offset: nil, no_cache: false)
  fetch(sql, params, limit: limit, offset: offset, no_cache: no_cache).records
end

#fetch_one(sql, params = [], no_cache: false) ⇒ Object

Fetch a single row (or nil).

FAILS LOUD (v3.13.37, DB-contract A): a SQL error RAISES and populates fetch_one ran the query through #fetch but did not separately guarantee the error capture, and a buried failure could be cached as nil. It now routes the uncached path through fetch_one_direct (capture + re-raise) and, on the cached path, only ever stores a value produced by a SUCCESSFUL read.

Pass ‘no_cache: true` to bypass the query cache entirely for this call —no lookup, no store — running the query directly. The `no_cache` flag is propagated to the inner read so the request-scoped/persistent cache is never populated either. Default `false` preserves cached behaviour.

# File 'lib/tina4/database.rb', line 465

def fetch_one(sql, params = [], no_cache: false)
  sql = Tina4::Database.strip_trailing_semicolons(sql)
  if @cache_enabled && !no_cache
    key = cache_key(sql + ":ONE", params)
    cached = cache_get(key)
    if cached
      @cache_mutex.synchronize { @cache_hits += 1 }
      return cached
    end
    # Raises (and captures @last_error) BEFORE cache_set, so a failed read
    # is never cached as nil.
    value = fetch_one_direct(sql, params)
    cache_set(key, value)
    @cache_mutex.synchronize { @cache_misses += 1 }
    return value
  end

  fetch_one_direct(sql, params)
end

#get_adapter ⇒ Integer

Pre-generate the next available primary key ID using engine-aware strategies.

Race-safe implementation using a ‘tina4_sequences` table for SQLite/MySQL/MSSQL fallback. Each call atomically increments the stored counter, so concurrent callers never receive the same value.

• Firebird: auto-creates a generator if missing, then increments via GEN_ID.

• PostgreSQL: tries nextval() on the named sequence, auto-creates it if missing.

• SQLite/MySQL/MSSQL: atomic UPDATE on ‘tina4_sequences` table.

• Returns 1 if the table is empty or does not exist.

Returns the underlying driver object (pool’s current driver or single driver).

Parameters:

• table (String) —

  Table name

• pk_column (String) —

  Primary key column name (default: “id”)

• generator_name (String, nil) —

  Override for sequence/generator name

Returns:

• (Integer) —

  The next available ID

# File 'lib/tina4/database.rb', line 832

def get_adapter
  current_driver
end

#get_database_type ⇒ Object

Return the normalised engine name for this connection.

Cross-framework parity with Python/PHP/Node “get_database_type()“. ORM.create_table needs this to emit engine-correct DDL (SERIAL vs AUTOINCREMENT, BOOLEAN vs INTEGER, TIMESTAMP vs DATETIME). Returns the resolved driver key (“postgres”, “mysql”, “mssql”, “firebird”, “sqlite”, …) — the same alias-normalised value used to pick the driver class, so callers don’t have to re-parse the connection string.

# File 'lib/tina4/database.rb', line 603

def get_database_type
  @driver_name
end

#get_error ⇒ Object

Return the last execute() error message, or nil.

# File 'lib/tina4/database.rb', line 584

def get_error
  @last_error
end

#get_last_id ⇒ Object

Return the last insert ID from execute() or insert().

# File 'lib/tina4/database.rb', line 589

def get_last_id
  current_driver.last_insert_id
rescue
  nil
end

#get_next_id(table, pk_column: "id", generator_name: nil) ⇒ Object

# File 'lib/tina4/database.rb', line 865

def get_next_id(table, pk_column: "id", generator_name: nil)
  drv = current_driver

  # Firebird — use generators
  if @driver_name == "firebird"
    gen_name = generator_name || "GEN_#{table.upcase}_ID"

    # Auto-create the generator if it does not exist
    begin
      drv.execute("CREATE GENERATOR #{gen_name}")
    rescue
      # Generator already exists — ignore
    end

    rows = drv.execute_query("SELECT GEN_ID(#{gen_name}, 1) AS NEXT_ID FROM RDB$DATABASE")
    row = rows.is_a?(Array) ? rows.first : nil
    val = row_value(row, :NEXT_ID) || row_value(row, :next_id)
    return val&.to_i || 1
  end

  # PostgreSQL — try sequence first, auto-create if missing
  if @driver_name == "postgres"
    seq_name = generator_name || "#{table.downcase}_#{pk_column.downcase}_seq"
    begin
      rows = drv.execute_query("SELECT nextval('#{seq_name}') AS next_id")
      row = rows.is_a?(Array) ? rows.first : nil
      val = row_value(row, :next_id) || row_value(row, :nextval)
      return val.to_i if val
    rescue
      # Sequence does not exist — auto-create it seeded from MAX
      begin
        max_rows = drv.execute_query("SELECT COALESCE(MAX(#{pk_column}), 0) AS max_id FROM #{table}")
        max_row = max_rows.is_a?(Array) ? max_rows.first : nil
        max_val = row_value(max_row, :max_id)
        start_val = max_val ? max_val.to_i + 1 : 1
        drv.execute("CREATE SEQUENCE #{seq_name} START WITH #{start_val}")
        drv.commit rescue nil
        rows = drv.execute_query("SELECT nextval('#{seq_name}') AS next_id")
        row = rows.is_a?(Array) ? rows.first : nil
        val = row_value(row, :next_id) || row_value(row, :nextval)
        return val&.to_i || start_val
      rescue
        # Fall through to sequence table fallback
      end
    end
  end

  # SQLite / MySQL / MSSQL / PostgreSQL fallback — atomic sequence table
  seq_key = generator_name || "#{table}.#{pk_column}"
  sequence_next(seq_key, table: table, pk_column: pk_column)
end

#insert(table, data) ⇒ Object

# File 'lib/tina4/database.rb', line 485

def insert(table, data)
  cache_invalidate if @cache_enabled
  drv = current_driver

  # List of hashes — batch insert.
  #
  # Cross-framework parity (mirrors the Python master's DatabaseAdapter.insert
  # → execute_many): build ONE parameterised INSERT and run it once per row
  # inside a SINGLE transaction on a SINGLE connection (see #execute_many),
  # then report a DatabaseResult whose affected_rows == the number of rows
  # (deterministic — the batch is all-or-raise) and a sensible last_id read
  # from that same connection. The per-driver #insert overrides (e.g.
  # PostgreSQL's INSERT ... RETURNING *) call data.keys, so they only ever
  # see a single Hash — the Array is intercepted here and never reaches them,
  # which is exactly the crash Python hit when a list fell through to a
  # keys-only override.
  if data.is_a?(Array)
    return Tina4::DatabaseResult.new([], affected_rows: 0, last_id: nil) if data.empty?
    keys = data.first.keys.map(&:to_s)
    placeholders = drv.placeholders(keys.length)
    sql = "INSERT INTO #{table} (#{keys.join(', ')}) VALUES (#{placeholders})"
    params_list = data.map { |row| keys.map { |k| row[k.to_sym] || row[k] } }
    return execute_many(sql, params_list)
  end

  # Issue #256: a driver that can surface the ACTUAL generated primary key
  # (PostgreSQL, via INSERT ... RETURNING *) owns its own insert so a UUID
  # PK comes back as the real 36-char string and a SERIAL PK as the integer
  # — instead of probing a session sequence (lastval()) that returns nil or
  # a stale wrong id for a UUID table. Other engines (SQLite/MySQL/MSSQL/
  # Firebird) keep the generic build-then-last_insert_id path below.
  if drv.respond_to?(:insert)
    result = drv.insert(table, data)
    autocommit_standalone_write(drv)
    return result
  end

  columns = data.keys.map(&:to_s)
  placeholders = drv.placeholders(columns.length)
  sql = "INSERT INTO #{table} (#{columns.join(', ')}) VALUES (#{placeholders})"
  drv.execute(sql, data.values)
  last_id = drv.last_insert_id
  autocommit_standalone_write(drv)
  { success: true, last_id: last_id }
end

#pool_size ⇒ Object

Returns the configured pool size, or 1 for single-connection mode.

# File 'lib/tina4/database.rb', line 837

def pool_size
  @pool_size > 0 ? @pool_size : 1
end

#rollback ⇒ Object

Roll back the current transaction and release the driver pin.

Rollback is the terminal cleanup of a transaction, so it ALWAYS clears the pin (and the depth counter) — even after a failed commit it routes to the retained pinned connection and cleans it up. If the underlying rollback itself raises, @last_error is captured and the error re-raised, but the pin is still released so a poisoned connection doesn’t stay pinned forever.

# File 'lib/tina4/database.rb', line 778

def rollback
  current_driver.rollback
  @last_error = nil
rescue => e
  @last_error = e.message
  raise
ensure
  Thread.current[@tx_pin_key] = nil
  Thread.current[@tx_depth_key] = nil
end

#start_transaction ⇒ Object

Begin a transaction without a block — matches PHP/Python/Node API. Pins the driver to this thread for the whole transaction so executes and the final commit/rollback all run on the same connection.

Nested-begin guard (v3.13.37, DB-contract C): a second start_transaction on a thread that already holds the pin is a double-begin — the inner BEGIN silently commits or no-ops on most engines, leaving the connection mid-transaction with the caller none the wiser. We keep a per-thread depth counter and log a clear warning instead of silently re-beginning. The pin stays on the original driver so commit/rollback still land on the right connection.

# File 'lib/tina4/database.rb', line 724

def start_transaction
  pinned = Thread.current[@tx_pin_key]
  if pinned
    depth = (Thread.current[@tx_depth_key] || 1)
    Tina4::Log.warning(
      "start_transaction called while a transaction is already open on this " \
      "thread (depth would become #{depth + 1}). Nested transactions are not " \
      "supported — the existing transaction stays open on its pinned " \
      "connection and this nested begin is ignored. Commit or rollback the " \
      "outer transaction first."
    )
    Thread.current[@tx_depth_key] = depth + 1
    return
  end
  drv = current_driver
  Thread.current[@tx_pin_key] = drv
  Thread.current[@tx_depth_key] = 1
  drv.begin_transaction
end

#table_exists?(table_name) ⇒ Boolean Also known as: table_exists

Returns:

• (Boolean)

# File 'lib/tina4/database.rb', line 803

def table_exists?(table_name)
  drv = current_driver
  # v3.13.14 (#48): drivers that can resolve a schema/catalog-qualified
  # name ("gift_cards.gift_card", "dbo.widget", "attached.table") answer
  # directly; the rest fall back to a case-insensitive scan of tables.
  return drv.table_exists?(table_name) if drv.respond_to?(:table_exists?)

  tables.any? { |t| t.downcase == table_name.to_s.downcase }
end

#tables ⇒ Object Also known as: get_tables

# File 'lib/tina4/database.rb', line 789

def tables
  current_driver.tables
end

#transaction ⇒ Object

# File 'lib/tina4/database.rb', line 698

def transaction
  drv = current_driver
  Thread.current[@tx_pin_key] = drv
  Thread.current[@tx_depth_key] = 1
  drv.begin_transaction
  yield self
  drv.commit
rescue => e
  drv.rollback if drv
  raise e
ensure
  Thread.current[@tx_pin_key] = nil
  Thread.current[@tx_depth_key] = nil
end

#update(table, data, filter = {}, params = nil) ⇒ Object

# File 'lib/tina4/database.rb', line 531

def update(table, data, filter = {}, params = nil)
  cache_invalidate if @cache_enabled
  drv = current_driver

  # String filter with explicit params array
  if filter.is_a?(String) && !params.nil?
    set_parts = data.keys.map { |k| "#{k} = #{drv.placeholder}" }
    sql = "UPDATE #{table} SET #{set_parts.join(', ')}"
    sql += " WHERE #{filter}" unless filter.empty?
    drv.execute(sql, data.values + Array(params))
    autocommit_standalone_write(drv)
    return { success: true }
  end

  set_parts = data.keys.map { |k| "#{k} = #{drv.placeholder}" }
  where_parts = filter.keys.map { |k| "#{k} = #{drv.placeholder}" }
  sql = "UPDATE #{table} SET #{set_parts.join(', ')}"
  sql += " WHERE #{where_parts.join(' AND ')}" unless filter.empty?
  values = data.values + filter.values
  drv.execute(sql, values)
  autocommit_standalone_write(drv)
  { success: true }
end