Revert early returns in process_active_iterator_()

The if/else pattern produces smaller code than early returns.

.clang-tidy.hash

@@ -1 +1 @@
-069fa9526c52f7c580a9ec17c7678d12f142221387e9b561c18f95394d4629a3
+37ec8d5a343c8d0a485fd2118cbdabcbccd7b9bca197e4a392be75087974dced

esphome/analyze_memory/__init__.py

@@ -43,6 +43,7 @@ _READELF_SECTION_PATTERN = re.compile(
 # Component category prefixes
 _COMPONENT_PREFIX_ESPHOME = "[esphome]"
 _COMPONENT_PREFIX_EXTERNAL = "[external]"
+_COMPONENT_PREFIX_LIB = "[lib]"
 _COMPONENT_CORE = f"{_COMPONENT_PREFIX_ESPHOME}core"
 _COMPONENT_API = f"{_COMPONENT_PREFIX_ESPHOME}api"
 
@@ -56,6 +57,16 @@ SymbolInfoType = tuple[str, int, str]
 # RAM sections - symbols in these sections consume RAM
 RAM_SECTIONS = frozenset([".data", ".bss"])
 
+# nm symbol types for global/weak defined symbols (used for library symbol mapping)
+# Only global (uppercase) and weak symbols are safe to use - local symbols (lowercase)
+# can have name collisions across compilation units
+_NM_DEFINED_GLOBAL_TYPES = frozenset({"T", "D", "B", "R", "W", "V"})
+
+# Pattern matching compiler-generated local names that can collide across compilation
+# units (e.g., packet$19, buf$20, flag$5261). These are unsafe for name-based lookup.
+# Does NOT match mangled C++ names with optimization suffixes (e.g., func$isra$0).
+_COMPILER_LOCAL_PATTERN = re.compile(r"^[a-zA-Z_]\w*\$\d+$")
+
 
 @dataclass
 class MemorySection:
@@ -179,11 +190,19 @@ class MemoryAnalyzer:
         self._sdk_symbols: list[SDKSymbol] = []
         # CSWTCH symbols: list of (name, size, source_file, component)
         self._cswtch_symbols: list[tuple[str, int, str, str]] = []
+        # Library symbol mapping: symbol_name -> library_name
+        self._lib_symbol_map: dict[str, str] = {}
+        # Library dir to name mapping: "lib641" -> "espsoftwareserial",
+        # "espressif__mdns" -> "mdns"
+        self._lib_hash_to_name: dict[str, str] = {}
+        # Heuristic category to library redirect: "mdns_lib" -> "[lib]mdns"
+        self._heuristic_to_lib: dict[str, str] = {}
 
     def analyze(self) -> dict[str, ComponentMemory]:
         """Analyze the ELF file and return component memory usage."""
         self._parse_sections()
         self._parse_symbols()
+        self._scan_libraries()
         self._categorize_symbols()
         self._analyze_cswtch_symbols()
         self._analyze_sdk_libraries()
@@ -328,15 +347,19 @@ class MemoryAnalyzer:
             # If no component match found, it's core
             return _COMPONENT_CORE
 
+        # Check library symbol map (more accurate than heuristic patterns)
+        if lib_name := self._lib_symbol_map.get(symbol_name):
+            return f"{_COMPONENT_PREFIX_LIB}{lib_name}"
+
         # Check against symbol patterns
         for component, patterns in SYMBOL_PATTERNS.items():
             if any(pattern in symbol_name for pattern in patterns):
-                return component
+                return self._heuristic_to_lib.get(component, component)
 
         # Check against demangled patterns
         for component, patterns in DEMANGLED_PATTERNS.items():
             if any(pattern in demangled for pattern in patterns):
-                return component
+                return self._heuristic_to_lib.get(component, component)
 
         # Special cases that need more complex logic
 
@@ -384,6 +407,327 @@ class MemoryAnalyzer:
 
         return "Other Core"
 
+    def _discover_pio_libraries(
+        self,
+        libraries: dict[str, list[Path]],
+        hash_to_name: dict[str, str],
+    ) -> None:
+        """Discover PlatformIO third-party libraries from the build directory.
+
+        Scans ``lib<hex>/`` directories under ``.pioenvs/<env>/`` to find
+        library names and their ``.a`` archive or ``.o`` file paths.
+
+        Args:
+            libraries: Dict to populate with library name -> file path list mappings.
+                Prefers ``.a`` archives when available, falls back to ``.o`` files
+                (e.g., pioarduino ESP32 Arduino builds only produce ``.o`` files).
+            hash_to_name: Dict to populate with dir name -> library name mappings
+                for CSWTCH attribution (e.g., ``lib641`` -> ``espsoftwareserial``).
+        """
+        build_dir = self.elf_path.parent
+
+        for entry in build_dir.iterdir():
+            if not entry.is_dir() or not entry.name.startswith("lib"):
+                continue
+            # Validate that the suffix after "lib" is a hex hash
+            hex_part = entry.name[3:]
+            if not hex_part:
+                continue
+            try:
+                int(hex_part, 16)
+            except ValueError:
+                continue
+
+            # Each lib<hex>/ directory contains a subdirectory named after the library
+            for lib_subdir in entry.iterdir():
+                if not lib_subdir.is_dir():
+                    continue
+                lib_name = lib_subdir.name.lower()
+
+                # Prefer .a archive (lib<LibraryName>.a), fall back to .o files
+                # e.g., lib72a/ESPAsyncTCP/... has lib72a/libESPAsyncTCP.a
+                archive = entry / f"lib{lib_subdir.name}.a"
+                if archive.exists():
+                    file_paths = [archive]
+                elif archives := list(entry.glob("*.a")):
+                    # Case-insensitive fallback
+                    file_paths = [archives[0]]
+                else:
+                    # No .a archive (e.g., pioarduino CMake builds) - use .o files
+                    file_paths = sorted(lib_subdir.rglob("*.o"))
+
+                if file_paths:
+                    libraries[lib_name] = file_paths
+                    hash_to_name[entry.name] = lib_name
+                    _LOGGER.debug(
+                        "Discovered PlatformIO library: %s -> %s",
+                        lib_subdir.name,
+                        file_paths[0],
+                    )
+
+    def _discover_idf_managed_components(
+        self,
+        libraries: dict[str, list[Path]],
+        hash_to_name: dict[str, str],
+    ) -> None:
+        """Discover ESP-IDF managed component libraries from the build directory.
+
+        ESP-IDF managed components (from the IDF component registry) use a
+        ``<vendor>__<name>`` naming convention. Source files live under
+        ``managed_components/<vendor>__<name>/`` and the compiled archives are at
+        ``esp-idf/<vendor>__<name>/lib<vendor>__<name>.a``.
+
+        Args:
+            libraries: Dict to populate with library name -> file path list mappings.
+            hash_to_name: Dict to populate with dir name -> library name mappings
+                for CSWTCH attribution (e.g., ``espressif__mdns`` -> ``mdns``).
+        """
+        build_dir = self.elf_path.parent
+
+        managed_dir = build_dir / "managed_components"
+        if not managed_dir.is_dir():
+            return
+
+        espidf_dir = build_dir / "esp-idf"
+
+        for entry in managed_dir.iterdir():
+            if not entry.is_dir() or "__" not in entry.name:
+                continue
+
+            # Extract the short name: espressif__mdns -> mdns
+            full_name = entry.name  # e.g., espressif__mdns
+            short_name = full_name.split("__", 1)[1].lower()
+
+            # Find the .a archive under esp-idf/<vendor>__<name>/
+            archive = espidf_dir / full_name / f"lib{full_name}.a"
+            if archive.exists():
+                libraries[short_name] = [archive]
+                hash_to_name[full_name] = short_name
+                _LOGGER.debug(
+                    "Discovered IDF managed component: %s -> %s",
+                    short_name,
+                    archive,
+                )
+
+    def _build_library_symbol_map(
+        self, libraries: dict[str, list[Path]]
+    ) -> dict[str, str]:
+        """Build a symbol-to-library mapping from library archives or object files.
+
+        Runs ``nm --defined-only`` on each ``.a`` or ``.o`` file to collect
+        global and weak defined symbols.
+
+        Args:
+            libraries: Dictionary mapping library name to list of file paths
+                (``.a`` archives or ``.o`` object files).
+
+        Returns:
+            Dictionary mapping symbol name to library name.
+        """
+        symbol_map: dict[str, str] = {}
+
+        if not self.nm_path:
+            return symbol_map
+
+        for lib_name, file_paths in libraries.items():
+            result = run_tool(
+                [self.nm_path, "--defined-only", *(str(p) for p in file_paths)],
+                timeout=10,
+            )
+            if result is None or result.returncode != 0:
+                continue
+
+            for line in result.stdout.splitlines():
+                parts = line.split()
+                if len(parts) < 3:
+                    continue
+
+                sym_type = parts[-2]
+                sym_name = parts[-1]
+
+                # Include global defined symbols (uppercase) and weak symbols (W/V)
+                if sym_type in _NM_DEFINED_GLOBAL_TYPES:
+                    symbol_map[sym_name] = lib_name
+
+        return symbol_map
+
+    @staticmethod
+    def _build_heuristic_to_lib_mapping(
+        library_names: set[str],
+    ) -> dict[str, str]:
+        """Build mapping from heuristic pattern categories to discovered libraries.
+
+        Heuristic categories like ``mdns_lib``, ``web_server_lib``, ``async_tcp``
+        exist as approximations for library attribution.  When we discover the
+        actual library, symbols matching those heuristics should be redirected
+        to the ``[lib]`` category instead.
+
+        The mapping is built by checking if the normalized category name
+        (stripped of ``_lib`` suffix and underscores) appears as a substring
+        of any discovered library name.
+
+        Examples::
+
+            mdns_lib -> mdns -> in "mdns" or "esp8266mdns" -> [lib]mdns
+            web_server_lib -> webserver -> in "espasyncwebserver" -> [lib]espasyncwebserver
+            async_tcp -> asynctcp -> in "espasynctcp" -> [lib]espasynctcp
+
+        Args:
+            library_names: Set of discovered library names (lowercase).
+
+        Returns:
+            Dictionary mapping heuristic category to ``[lib]<name>`` string.
+        """
+        mapping: dict[str, str] = {}
+        all_categories = set(SYMBOL_PATTERNS) | set(DEMANGLED_PATTERNS)
+
+        for category in all_categories:
+            base = category.removesuffix("_lib").replace("_", "")
+            # Collect all libraries whose name contains the base string
+            candidates = [lib_name for lib_name in library_names if base in lib_name]
+            if not candidates:
+                continue
+
+            # Choose a deterministic "best" match:
+            #   1. Prefer exact name matches over substring matches.
+            #   2. Among non-exact matches, prefer the shortest library name.
+            #   3. Break remaining ties lexicographically.
+            best_lib = min(
+                candidates,
+                key=lambda lib_name, _base=base: (
+                    lib_name != _base,
+                    len(lib_name),
+                    lib_name,
+                ),
+            )
+            mapping[category] = f"{_COMPONENT_PREFIX_LIB}{best_lib}"
+
+        if mapping:
+            _LOGGER.debug(
+                "Heuristic-to-library redirects: %s",
+                ", ".join(f"{k} -> {v}" for k, v in sorted(mapping.items())),
+            )
+
+        return mapping
+
+    def _parse_map_file(self) -> dict[str, str] | None:
+        """Parse linker map file to build authoritative symbol-to-library mapping.
+
+        The linker map file contains the definitive source attribution for every
+        symbol, including local/static ones that ``nm`` cannot safely export.
+
+        Map file format (GNU ld)::
+
+            .text._mdns_service_task
+                        0x400e9fdc      0x65c  .pioenvs/env/esp-idf/espressif__mdns/libespressif__mdns.a(mdns.c.o)
+
+        Each section entry has a ``.section.symbol_name`` line followed by an
+        indented line with address, size, and source path.
+
+        Returns:
+            Symbol-to-library dict, or ``None`` if no usable map file exists.
+        """
+        map_path = self.elf_path.with_suffix(".map")
+        if not map_path.exists() or map_path.stat().st_size < 10000:
+            return None
+
+        _LOGGER.info("Parsing linker map file: %s", map_path.name)
+
+        try:
+            map_text = map_path.read_text(encoding="utf-8", errors="replace")
+        except OSError as err:
+            _LOGGER.warning("Failed to read map file: %s", err)
+            return None
+
+        symbol_map: dict[str, str] = {}
+        current_symbol: str | None = None
+        section_prefixes = (".text.", ".rodata.", ".data.", ".bss.", ".literal.")
+
+        for line in map_text.splitlines():
+            # Match section.symbol line: " .text.symbol_name"
+            # Single space indent, starts with dot
+            if len(line) > 2 and line[0] == " " and line[1] == ".":
+                stripped = line.strip()
+                for prefix in section_prefixes:
+                    if stripped.startswith(prefix):
+                        current_symbol = stripped[len(prefix) :]
+                        break
+                else:
+                    current_symbol = None
+                continue
+
+            # Match source attribution line: "        0xADDR  0xSIZE  source_path"
+            if current_symbol is None:
+                continue
+
+            fields = line.split()
+            # Skip compiler-generated local names (e.g., packet$19, buf$20)
+            # that can collide across compilation units
+            if (
+                len(fields) >= 3
+                and fields[0].startswith("0x")
+                and fields[1].startswith("0x")
+                and not _COMPILER_LOCAL_PATTERN.match(current_symbol)
+            ):
+                source_path = fields[2]
+                # Check if source path contains a known library directory
+                for dir_key, lib_name in self._lib_hash_to_name.items():
+                    if dir_key in source_path:
+                        symbol_map[current_symbol] = lib_name
+                        break
+
+            current_symbol = None
+
+        return symbol_map or None
+
+    def _scan_libraries(self) -> None:
+        """Discover third-party libraries and build symbol mapping.
+
+        Scans both PlatformIO ``lib<hex>/`` directories (Arduino builds) and
+        ESP-IDF ``managed_components/`` (IDF builds) to find library archives.
+
+        Uses the linker map file for authoritative symbol attribution when
+        available, falling back to ``nm`` scanning with heuristic redirects.
+        """
+        libraries: dict[str, list[Path]] = {}
+        self._discover_pio_libraries(libraries, self._lib_hash_to_name)
+        self._discover_idf_managed_components(libraries, self._lib_hash_to_name)
+
+        if not libraries:
+            _LOGGER.debug("No third-party libraries found")
+            return
+
+        _LOGGER.info(
+            "Scanning %d libraries: %s",
+            len(libraries),
+            ", ".join(sorted(libraries)),
+        )
+
+        # Heuristic redirect catches local symbols (e.g., mdns_task_buffer$14)
+        # that can't be safely added to the symbol map due to name collisions
+        self._heuristic_to_lib = self._build_heuristic_to_lib_mapping(
+            set(libraries.keys())
+        )
+
+        # Try linker map file first (authoritative, includes local symbols)
+        map_symbols = self._parse_map_file()
+        if map_symbols is not None:
+            self._lib_symbol_map = map_symbols
+            _LOGGER.info(
+                "Built library symbol map from linker map: %d symbols",
+                len(self._lib_symbol_map),
+            )
+            return
+
+        # Fall back to nm scanning (global symbols only)
+        self._lib_symbol_map = self._build_library_symbol_map(libraries)
+
+        _LOGGER.info(
+            "Built library symbol map from nm: %d symbols from %d libraries",
+            len(self._lib_symbol_map),
+            len(libraries),
+        )
+
     def _find_object_files_dir(self) -> Path | None:
         """Find the directory containing object files for this build.
 
@@ -397,47 +741,38 @@ class MemoryAnalyzer:
             return pioenvs_dir
         return None
 
-    def _scan_cswtch_in_objects(
-        self, obj_dir: Path
-    ) -> dict[str, list[tuple[str, int]]]:
-        """Scan object files for CSWTCH symbols using a single nm invocation.
+    @staticmethod
+    def _parse_nm_cswtch_output(
+        output: str,
+        base_dir: Path | None,
+        cswtch_map: dict[str, list[tuple[str, int]]],
+    ) -> None:
+        """Parse nm output for CSWTCH symbols and add to cswtch_map.
 
-        Uses ``nm --print-file-name -S`` on all ``.o`` files at once.
-        Output format: ``/path/to/file.o:address size type name``
+        Handles both ``.o`` files and ``.a`` archives.
+
+        nm output formats::
+
+            .o files:  /path/file.o:hex_addr hex_size type name
+            .a files:  /path/lib.a:member.o:hex_addr hex_size type name
+
+        For ``.o`` files, paths are made relative to *base_dir* when possible.
+        For ``.a`` archives (detected by ``:`` in the file portion), paths are
+        formatted as ``archive_stem/member.o`` (e.g. ``liblwip2-536-feat/lwip-esp.o``).
 
         Args:
-            obj_dir: Directory containing object files (.pioenvs/<env>/)
-
-        Returns:
-            Dict mapping "CSWTCH$NNN:size" to list of (source_file, size) tuples.
+            output: Raw stdout from ``nm --print-file-name -S``.
+            base_dir: Base directory for computing relative paths of ``.o`` files.
+                      Pass ``None`` when scanning archives outside the build tree.
+            cswtch_map: Dict to populate, mapping ``"CSWTCH$N:size"`` to source list.
         """
-        cswtch_map: dict[str, list[tuple[str, int]]] = defaultdict(list)
-
-        if not self.nm_path:
-            return cswtch_map
-
-        # Find all .o files recursively, sorted for deterministic output
-        obj_files = sorted(obj_dir.rglob("*.o"))
-        if not obj_files:
-            return cswtch_map
-
-        _LOGGER.debug("Scanning %d object files for CSWTCH symbols", len(obj_files))
-
-        # Single nm call with --print-file-name for all object files
-        result = run_tool(
-            [self.nm_path, "--print-file-name", "-S"] + [str(f) for f in obj_files],
-            timeout=30,
-        )
-        if result is None or result.returncode != 0:
-            return cswtch_map
-
-        for line in result.stdout.splitlines():
+        for line in output.splitlines():
             if "CSWTCH$" not in line:
                 continue
 
             # Split on last ":" that precedes a hex address.
-            # nm --print-file-name format: filepath:hex_addr hex_size type name
-            # We split from the right: find the last colon followed by hex digits.
+            # For .o:  "filepath.o" : "hex_addr hex_size type name"
+            # For .a:  "filepath.a:member.o" : "hex_addr hex_size type name"
             parts_after_colon = line.rsplit(":", 1)
             if len(parts_after_colon) != 2:
                 continue
@@ -457,16 +792,89 @@ class MemoryAnalyzer:
             except ValueError:
                 continue
 
-            # Get relative path from obj_dir for readability
-            try:
-                rel_path = str(Path(file_path).relative_to(obj_dir))
-            except ValueError:
+            # Determine readable source path
+            # Use ".a:" to detect archive format (not bare ":" which matches
+            # Windows drive letters like "C:\...\file.o").
+            if ".a:" in file_path:
+                # Archive format: "archive.a:member.o" → "archive_stem/member.o"
+                archive_part, member = file_path.rsplit(":", 1)
+                archive_name = Path(archive_part).stem
+                rel_path = f"{archive_name}/{member}"
+            elif base_dir is not None:
+                try:
+                    rel_path = str(Path(file_path).relative_to(base_dir))
+                except ValueError:
+                    rel_path = file_path
+            else:
                 rel_path = file_path
 
             key = f"{sym_name}:{size}"
             cswtch_map[key].append((rel_path, size))
 
-        return cswtch_map
+    def _run_nm_cswtch_scan(
+        self,
+        files: list[Path],
+        base_dir: Path | None,
+        cswtch_map: dict[str, list[tuple[str, int]]],
+    ) -> None:
+        """Run nm on *files* and add any CSWTCH symbols to *cswtch_map*.
+
+        Args:
+            files: Object (``.o``) or archive (``.a``) files to scan.
+            base_dir: Base directory for relative path computation (see
+                      :meth:`_parse_nm_cswtch_output`).
+            cswtch_map: Dict to populate with results.
+        """
+        if not self.nm_path or not files:
+            return
+
+        _LOGGER.debug("Scanning %d files for CSWTCH symbols", len(files))
+
+        result = run_tool(
+            [self.nm_path, "--print-file-name", "-S"] + [str(f) for f in files],
+            timeout=30,
+        )
+        if result is None or result.returncode != 0:
+            _LOGGER.debug(
+                "nm failed or timed out scanning %d files for CSWTCH symbols",
+                len(files),
+            )
+            return
+
+        self._parse_nm_cswtch_output(result.stdout, base_dir, cswtch_map)
+
+    def _scan_cswtch_in_sdk_archives(
+        self, cswtch_map: dict[str, list[tuple[str, int]]]
+    ) -> None:
+        """Scan SDK library archives (.a) for CSWTCH symbols.
+
+        Prebuilt SDK libraries (e.g. lwip, bearssl) are not compiled from source,
+        so their CSWTCH symbols only exist inside ``.a`` archives.  Results are
+        merged into *cswtch_map* for keys not already found in ``.o`` files.
+
+        The same source file (e.g. ``lwip-esp.o``) often appears in multiple
+        library variants (``liblwip2-536.a``, ``liblwip2-1460-feat.a``, etc.),
+        so results are deduplicated by member name.
+        """
+        sdk_dirs = self._find_sdk_library_dirs()
+        if not sdk_dirs:
+            return
+
+        sdk_archives = sorted(a for sdk_dir in sdk_dirs for a in sdk_dir.glob("*.a"))
+
+        sdk_map: dict[str, list[tuple[str, int]]] = defaultdict(list)
+        self._run_nm_cswtch_scan(sdk_archives, None, sdk_map)
+
+        # Merge SDK results, deduplicating by member name.
+        for key, sources in sdk_map.items():
+            if key in cswtch_map:
+                continue
+            seen: dict[str, tuple[str, int]] = {}
+            for path, sz in sources:
+                member = Path(path).name
+                if member not in seen:
+                    seen[member] = (path, sz)
+            cswtch_map[key] = list(seen.values())
 
     def _source_file_to_component(self, source_file: str) -> str:
         """Map a source object file path to its component name.
@@ -495,9 +903,21 @@ class MemoryAnalyzer:
         if "esphome" in parts and "components" not in parts:
             return _COMPONENT_CORE
 
-        # Framework/library files - return the first path component
-        # e.g., lib65b/ESPAsyncTCP/... -> lib65b
-        #        FrameworkArduino/... -> FrameworkArduino
+        # Framework/library files - check for PlatformIO library hash dirs
+        # e.g., lib65b/ESPAsyncTCP/... -> [lib]espasynctcp
+        if parts and parts[0] in self._lib_hash_to_name:
+            return f"{_COMPONENT_PREFIX_LIB}{self._lib_hash_to_name[parts[0]]}"
+
+        # ESP-IDF managed components: managed_components/espressif__mdns/... -> [lib]mdns
+        if (
+            len(parts) >= 2
+            and parts[0] == "managed_components"
+            and parts[1] in self._lib_hash_to_name
+        ):
+            return f"{_COMPONENT_PREFIX_LIB}{self._lib_hash_to_name[parts[1]]}"
+
+        # Other framework/library files - return the first path component
+        # e.g., FrameworkArduino/... -> FrameworkArduino
         return parts[0] if parts else source_file
 
     def _analyze_cswtch_symbols(self) -> None:
@@ -505,17 +925,25 @@ class MemoryAnalyzer:
 
         CSWTCH symbols are compiler-generated lookup tables for switch statements.
         They are local symbols, so the same name can appear in different object files.
-        This method scans .o files to attribute them to their source components.
+        This method scans .o files and SDK archives to attribute them to their
+        source components.
         """
         obj_dir = self._find_object_files_dir()
         if obj_dir is None:
             _LOGGER.debug("No object files directory found, skipping CSWTCH analysis")
             return
 
-        # Scan object files for CSWTCH symbols
-        cswtch_map = self._scan_cswtch_in_objects(obj_dir)
+        # Scan build-dir object files for CSWTCH symbols
+        cswtch_map: dict[str, list[tuple[str, int]]] = defaultdict(list)
+        self._run_nm_cswtch_scan(sorted(obj_dir.rglob("*.o")), obj_dir, cswtch_map)
+
+        # Also scan SDK library archives (.a) for CSWTCH symbols.
+        # Prebuilt SDK libraries (e.g. lwip, bearssl) are not compiled from source
+        # so their symbols only exist inside .a archives, not as loose .o files.
+        self._scan_cswtch_in_sdk_archives(cswtch_map)
+
         if not cswtch_map:
-            _LOGGER.debug("No CSWTCH symbols found in object files")
+            _LOGGER.debug("No CSWTCH symbols found in object files or SDK archives")
             return
 
         # Collect CSWTCH symbols from the ELF (already parsed in sections)

esphome/analyze_memory/cli.py

@@ -14,6 +14,7 @@ from . import (
     _COMPONENT_CORE,
     _COMPONENT_PREFIX_ESPHOME,
     _COMPONENT_PREFIX_EXTERNAL,
+    _COMPONENT_PREFIX_LIB,
     RAM_SECTIONS,
     MemoryAnalyzer,
 )
@@ -407,6 +408,11 @@ class MemoryAnalyzerCLI(MemoryAnalyzer):
             for name, mem in components
             if name.startswith(_COMPONENT_PREFIX_EXTERNAL)
         ]
+        library_components = [
+            (name, mem)
+            for name, mem in components
+            if name.startswith(_COMPONENT_PREFIX_LIB)
+        ]
 
         top_esphome_components = sorted(
             esphome_components, key=lambda x: x[1].flash_total, reverse=True
@@ -417,6 +423,11 @@ class MemoryAnalyzerCLI(MemoryAnalyzer):
             external_components, key=lambda x: x[1].flash_total, reverse=True
         )
 
+        # Include all library components
+        top_library_components = sorted(
+            library_components, key=lambda x: x[1].flash_total, reverse=True
+        )
+
         # Check if API component exists and ensure it's included
         api_component = None
         for name, mem in components:
@@ -435,10 +446,11 @@ class MemoryAnalyzerCLI(MemoryAnalyzer):
             if name in system_components_to_include
         ]
 
-        # Combine all components to analyze: top ESPHome + all external + API if not already included + system components
+        # Combine all components to analyze: top ESPHome + all external + libraries + API if not already included + system components
         components_to_analyze = (
             list(top_esphome_components)
             + list(top_external_components)
+            + list(top_library_components)
             + system_components
         )
         if api_component and api_component not in components_to_analyze:

esphome/codegen.py

@@ -87,6 +87,7 @@ from esphome.cpp_types import (  # noqa: F401
     size_t,
     std_ns,
     std_shared_ptr,
+    std_span,
     std_string,
     std_string_ref,
     std_vector,

esphome/components/api/api_connection.cpp

@@ -219,35 +219,8 @@ void APIConnection::loop() {
     this->process_batch_();
   }
 
-  switch (this->active_iterator_) {
-    case ActiveIterator::LIST_ENTITIES:
-      if (this->iterator_storage_.list_entities.completed()) {
-        this->destroy_active_iterator_();
-        if (this->flags_.state_subscription) {
-          this->begin_iterator_(ActiveIterator::INITIAL_STATE);
-        }
-      } else {
-        this->process_iterator_batch_(this->iterator_storage_.list_entities);
-      }
-      break;
-    case ActiveIterator::INITIAL_STATE:
-      if (this->iterator_storage_.initial_state.completed()) {
-        this->destroy_active_iterator_();
-        // Process any remaining batched messages immediately
-        if (!this->deferred_batch_.empty()) {
-          this->process_batch_();
-        }
-        // Now that everything is sent, enable immediate sending for future state changes
-        this->flags_.should_try_send_immediately = true;
-        // Release excess memory from buffers that grew during initial sync
-        this->deferred_batch_.release_buffer();
-        this->helper_->release_buffers();
-      } else {
-        this->process_iterator_batch_(this->iterator_storage_.initial_state);
-      }
-      break;
-    case ActiveIterator::NONE:
-      break;
+  if (this->active_iterator_ != ActiveIterator::NONE) {
+    this->process_active_iterator_();
   }
 
   if (this->flags_.sent_ping) {
@@ -283,7 +256,50 @@ void APIConnection::loop() {
 #endif
 }
 
-bool APIConnection::send_disconnect_response(const DisconnectRequest &msg) {
+void APIConnection::process_active_iterator_() {
+  // Caller ensures active_iterator_ != NONE
+  if (this->active_iterator_ == ActiveIterator::LIST_ENTITIES) {
+    if (this->iterator_storage_.list_entities.completed()) {
+      this->destroy_active_iterator_();
+      if (this->flags_.state_subscription) {
+        this->begin_iterator_(ActiveIterator::INITIAL_STATE);
+      }
+    } else {
+      this->process_iterator_batch_(this->iterator_storage_.list_entities);
+    }
+  } else {  // INITIAL_STATE
+    if (this->iterator_storage_.initial_state.completed()) {
+      this->destroy_active_iterator_();
+      // Process any remaining batched messages immediately
+      if (!this->deferred_batch_.empty()) {
+        this->process_batch_();
+      }
+      // Now that everything is sent, enable immediate sending for future state changes
+      this->flags_.should_try_send_immediately = true;
+      // Release excess memory from buffers that grew during initial sync
+      this->deferred_batch_.release_buffer();
+      this->helper_->release_buffers();
+    } else {
+      this->process_iterator_batch_(this->iterator_storage_.initial_state);
+    }
+  }
+}
+
+void APIConnection::process_iterator_batch_(ComponentIterator &iterator) {
+  size_t initial_size = this->deferred_batch_.size();
+  size_t max_batch = this->get_max_batch_size_();
+  while (!iterator.completed() && (this->deferred_batch_.size() - initial_size) < max_batch) {
+    iterator.advance();
+  }
+
+  // If the batch is full, process it immediately
+  // Note: iterator.advance() already calls schedule_batch_() via schedule_message_()
+  if (this->deferred_batch_.size() >= max_batch) {
+    this->process_batch_();
+  }
+}
+
+bool APIConnection::send_disconnect_response_() {
   // remote initiated disconnect_client
   // don't close yet, we still need to send the disconnect response
   // close will happen on next loop
@@ -292,7 +308,7 @@ bool APIConnection::send_disconnect_response(const DisconnectRequest &msg) {
   DisconnectResponse resp;
   return this->send_message(resp, DisconnectResponse::MESSAGE_TYPE);
 }
-void APIConnection::on_disconnect_response(const DisconnectResponse &value) {
+void APIConnection::on_disconnect_response() {
   this->helper_->close();
   this->flags_.remove = true;
 }
@@ -406,7 +422,7 @@ uint16_t APIConnection::try_send_cover_info(EntityBase *entity, APIConnection *c
   msg.device_class = cover->get_device_class_ref();
   return fill_and_encode_entity_info(cover, msg, ListEntitiesCoverResponse::MESSAGE_TYPE, conn, remaining_size);
 }
-void APIConnection::cover_command(const CoverCommandRequest &msg) {
+void APIConnection::on_cover_command_request(const CoverCommandRequest &msg) {
   ENTITY_COMMAND_MAKE_CALL(cover::Cover, cover, cover)
   if (msg.has_position)
     call.set_position(msg.position);
@@ -449,7 +465,7 @@ uint16_t APIConnection::try_send_fan_info(EntityBase *entity, APIConnection *con
   msg.supported_preset_modes = &traits.supported_preset_modes();
   return fill_and_encode_entity_info(fan, msg, ListEntitiesFanResponse::MESSAGE_TYPE, conn, remaining_size);
 }
-void APIConnection::fan_command(const FanCommandRequest &msg) {
+void APIConnection::on_fan_command_request(const FanCommandRequest &msg) {
   ENTITY_COMMAND_MAKE_CALL(fan::Fan, fan, fan)
   if (msg.has_state)
     call.set_state(msg.state);
@@ -517,7 +533,7 @@ uint16_t APIConnection::try_send_light_info(EntityBase *entity, APIConnection *c
   msg.effects = &effects_list;
   return fill_and_encode_entity_info(light, msg, ListEntitiesLightResponse::MESSAGE_TYPE, conn, remaining_size);
 }
-void APIConnection::light_command(const LightCommandRequest &msg) {
+void APIConnection::on_light_command_request(const LightCommandRequest &msg) {
   ENTITY_COMMAND_MAKE_CALL(light::LightState, light, light)
   if (msg.has_state)
     call.set_state(msg.state);
@@ -594,7 +610,7 @@ uint16_t APIConnection::try_send_switch_info(EntityBase *entity, APIConnection *
   msg.device_class = a_switch->get_device_class_ref();
   return fill_and_encode_entity_info(a_switch, msg, ListEntitiesSwitchResponse::MESSAGE_TYPE, conn, remaining_size);
 }
-void APIConnection::switch_command(const SwitchCommandRequest &msg) {
+void APIConnection::on_switch_command_request(const SwitchCommandRequest &msg) {
   ENTITY_COMMAND_GET(switch_::Switch, a_switch, switch)
 
   if (msg.state) {
@@ -692,7 +708,7 @@ uint16_t APIConnection::try_send_climate_info(EntityBase *entity, APIConnection
   msg.supported_swing_modes = &traits.get_supported_swing_modes();
   return fill_and_encode_entity_info(climate, msg, ListEntitiesClimateResponse::MESSAGE_TYPE, conn, remaining_size);
 }
-void APIConnection::climate_command(const ClimateCommandRequest &msg) {
+void APIConnection::on_climate_command_request(const ClimateCommandRequest &msg) {
   ENTITY_COMMAND_MAKE_CALL(climate::Climate, climate, climate)
   if (msg.has_mode)
     call.set_mode(static_cast<climate::ClimateMode>(msg.mode));
@@ -742,7 +758,7 @@ uint16_t APIConnection::try_send_number_info(EntityBase *entity, APIConnection *
   msg.step = number->traits.get_step();
   return fill_and_encode_entity_info(number, msg, ListEntitiesNumberResponse::MESSAGE_TYPE, conn, remaining_size);
 }
-void APIConnection::number_command(const NumberCommandRequest &msg) {
+void APIConnection::on_number_command_request(const NumberCommandRequest &msg) {
   ENTITY_COMMAND_MAKE_CALL(number::Number, number, number)
   call.set_value(msg.state);
   call.perform();
@@ -767,7 +783,7 @@ uint16_t APIConnection::try_send_date_info(EntityBase *entity, APIConnection *co
   ListEntitiesDateResponse msg;
   return fill_and_encode_entity_info(date, msg, ListEntitiesDateResponse::MESSAGE_TYPE, conn, remaining_size);
 }
-void APIConnection::date_command(const DateCommandRequest &msg) {
+void APIConnection::on_date_command_request(const DateCommandRequest &msg) {
   ENTITY_COMMAND_MAKE_CALL(datetime::DateEntity, date, date)
   call.set_date(msg.year, msg.month, msg.day);
   call.perform();
@@ -792,7 +808,7 @@ uint16_t APIConnection::try_send_time_info(EntityBase *entity, APIConnection *co
   ListEntitiesTimeResponse msg;
   return fill_and_encode_entity_info(time, msg, ListEntitiesTimeResponse::MESSAGE_TYPE, conn, remaining_size);
 }
-void APIConnection::time_command(const TimeCommandRequest &msg) {
+void APIConnection::on_time_command_request(const TimeCommandRequest &msg) {
   ENTITY_COMMAND_MAKE_CALL(datetime::TimeEntity, time, time)
   call.set_time(msg.hour, msg.minute, msg.second);
   call.perform();
@@ -819,7 +835,7 @@ uint16_t APIConnection::try_send_datetime_info(EntityBase *entity, APIConnection
   ListEntitiesDateTimeResponse msg;
   return fill_and_encode_entity_info(datetime, msg, ListEntitiesDateTimeResponse::MESSAGE_TYPE, conn, remaining_size);
 }
-void APIConnection::datetime_command(const DateTimeCommandRequest &msg) {
+void APIConnection::on_date_time_command_request(const DateTimeCommandRequest &msg) {
   ENTITY_COMMAND_MAKE_CALL(datetime::DateTimeEntity, datetime, datetime)
   call.set_datetime(msg.epoch_seconds);
   call.perform();
@@ -848,7 +864,7 @@ uint16_t APIConnection::try_send_text_info(EntityBase *entity, APIConnection *co
   msg.pattern = text->traits.get_pattern_ref();
   return fill_and_encode_entity_info(text, msg, ListEntitiesTextResponse::MESSAGE_TYPE, conn, remaining_size);
 }
-void APIConnection::text_command(const TextCommandRequest &msg) {
+void APIConnection::on_text_command_request(const TextCommandRequest &msg) {
   ENTITY_COMMAND_MAKE_CALL(text::Text, text, text)
   call.set_value(msg.state);
   call.perform();
@@ -874,7 +890,7 @@ uint16_t APIConnection::try_send_select_info(EntityBase *entity, APIConnection *
   msg.options = &select->traits.get_options();
   return fill_and_encode_entity_info(select, msg, ListEntitiesSelectResponse::MESSAGE_TYPE, conn, remaining_size);
 }
-void APIConnection::select_command(const SelectCommandRequest &msg) {
+void APIConnection::on_select_command_request(const SelectCommandRequest &msg) {
   ENTITY_COMMAND_MAKE_CALL(select::Select, select, select)
   call.set_option(msg.state.c_str(), msg.state.size());
   call.perform();
@@ -888,7 +904,7 @@ uint16_t APIConnection::try_send_button_info(EntityBase *entity, APIConnection *
   msg.device_class = button->get_device_class_ref();
   return fill_and_encode_entity_info(button, msg, ListEntitiesButtonResponse::MESSAGE_TYPE, conn, remaining_size);
 }
-void esphome::api::APIConnection::button_command(const ButtonCommandRequest &msg) {
+void esphome::api::APIConnection::on_button_command_request(const ButtonCommandRequest &msg) {
   ENTITY_COMMAND_GET(button::Button, button, button)
   button->press();
 }
@@ -914,7 +930,7 @@ uint16_t APIConnection::try_send_lock_info(EntityBase *entity, APIConnection *co
   msg.requires_code = a_lock->traits.get_requires_code();
   return fill_and_encode_entity_info(a_lock, msg, ListEntitiesLockResponse::MESSAGE_TYPE, conn, remaining_size);
 }
-void APIConnection::lock_command(const LockCommandRequest &msg) {
+void APIConnection::on_lock_command_request(const LockCommandRequest &msg) {
   ENTITY_COMMAND_GET(lock::Lock, a_lock, lock)
 
   switch (msg.command) {
@@ -952,7 +968,7 @@ uint16_t APIConnection::try_send_valve_info(EntityBase *entity, APIConnection *c
   msg.supports_stop = traits.get_supports_stop();
   return fill_and_encode_entity_info(valve, msg, ListEntitiesValveResponse::MESSAGE_TYPE, conn, remaining_size);
 }
-void APIConnection::valve_command(const ValveCommandRequest &msg) {
+void APIConnection::on_valve_command_request(const ValveCommandRequest &msg) {
   ENTITY_COMMAND_MAKE_CALL(valve::Valve, valve, valve)
   if (msg.has_position)
     call.set_position(msg.position);
@@ -996,7 +1012,7 @@ uint16_t APIConnection::try_send_media_player_info(EntityBase *entity, APIConnec
   return fill_and_encode_entity_info(media_player, msg, ListEntitiesMediaPlayerResponse::MESSAGE_TYPE, conn,
                                      remaining_size);
 }
-void APIConnection::media_player_command(const MediaPlayerCommandRequest &msg) {
+void APIConnection::on_media_player_command_request(const MediaPlayerCommandRequest &msg) {
   ENTITY_COMMAND_MAKE_CALL(media_player::MediaPlayer, media_player, media_player)
   if (msg.has_command) {
     call.set_command(static_cast<media_player::MediaPlayerCommand>(msg.command));
@@ -1063,7 +1079,7 @@ uint16_t APIConnection::try_send_camera_info(EntityBase *entity, APIConnection *
   ListEntitiesCameraResponse msg;
   return fill_and_encode_entity_info(camera, msg, ListEntitiesCameraResponse::MESSAGE_TYPE, conn, remaining_size);
 }
-void APIConnection::camera_image(const CameraImageRequest &msg) {
+void APIConnection::on_camera_image_request(const CameraImageRequest &msg) {
   if (camera::Camera::instance() == nullptr)
     return;
 
@@ -1092,42 +1108,47 @@ void APIConnection::on_get_time_response(const GetTimeResponse &value) {
 #endif
 
 #ifdef USE_BLUETOOTH_PROXY
-void APIConnection::subscribe_bluetooth_le_advertisements(const SubscribeBluetoothLEAdvertisementsRequest &msg) {
+void APIConnection::on_subscribe_bluetooth_le_advertisements_request(
+    const SubscribeBluetoothLEAdvertisementsRequest &msg) {
   bluetooth_proxy::global_bluetooth_proxy->subscribe_api_connection(this, msg.flags);
 }
-void APIConnection::unsubscribe_bluetooth_le_advertisements(const UnsubscribeBluetoothLEAdvertisementsRequest &msg) {
+void APIConnection::on_unsubscribe_bluetooth_le_advertisements_request() {
   bluetooth_proxy::global_bluetooth_proxy->unsubscribe_api_connection(this);
 }
-void APIConnection::bluetooth_device_request(const BluetoothDeviceRequest &msg) {
+void APIConnection::on_bluetooth_device_request(const BluetoothDeviceRequest &msg) {
   bluetooth_proxy::global_bluetooth_proxy->bluetooth_device_request(msg);
 }
-void APIConnection::bluetooth_gatt_read(const BluetoothGATTReadRequest &msg) {
+void APIConnection::on_bluetooth_gatt_read_request(const BluetoothGATTReadRequest &msg) {
   bluetooth_proxy::global_bluetooth_proxy->bluetooth_gatt_read(msg);
 }
-void APIConnection::bluetooth_gatt_write(const BluetoothGATTWriteRequest &msg) {
+void APIConnection::on_bluetooth_gatt_write_request(const BluetoothGATTWriteRequest &msg) {
   bluetooth_proxy::global_bluetooth_proxy->bluetooth_gatt_write(msg);
 }
-void APIConnection::bluetooth_gatt_read_descriptor(const BluetoothGATTReadDescriptorRequest &msg) {
+void APIConnection::on_bluetooth_gatt_read_descriptor_request(const BluetoothGATTReadDescriptorRequest &msg) {
   bluetooth_proxy::global_bluetooth_proxy->bluetooth_gatt_read_descriptor(msg);
 }
-void APIConnection::bluetooth_gatt_write_descriptor(const BluetoothGATTWriteDescriptorRequest &msg) {
+void APIConnection::on_bluetooth_gatt_write_descriptor_request(const BluetoothGATTWriteDescriptorRequest &msg) {
   bluetooth_proxy::global_bluetooth_proxy->bluetooth_gatt_write_descriptor(msg);
 }
-void APIConnection::bluetooth_gatt_get_services(const BluetoothGATTGetServicesRequest &msg) {
+void APIConnection::on_bluetooth_gatt_get_services_request(const BluetoothGATTGetServicesRequest &msg) {
   bluetooth_proxy::global_bluetooth_proxy->bluetooth_gatt_send_services(msg);
 }
 
-void APIConnection::bluetooth_gatt_notify(const BluetoothGATTNotifyRequest &msg) {
+void APIConnection::on_bluetooth_gatt_notify_request(const BluetoothGATTNotifyRequest &msg) {
   bluetooth_proxy::global_bluetooth_proxy->bluetooth_gatt_notify(msg);
 }
 
-bool APIConnection::send_subscribe_bluetooth_connections_free_response(
-    const SubscribeBluetoothConnectionsFreeRequest &msg) {
+bool APIConnection::send_subscribe_bluetooth_connections_free_response_() {
   bluetooth_proxy::global_bluetooth_proxy->send_connections_free(this);
   return true;
 }
+void APIConnection::on_subscribe_bluetooth_connections_free_request() {
+  if (!this->send_subscribe_bluetooth_connections_free_response_()) {
+    this->on_fatal_error();
+  }
+}
 
-void APIConnection::bluetooth_scanner_set_mode(const BluetoothScannerSetModeRequest &msg) {
+void APIConnection::on_bluetooth_scanner_set_mode_request(const BluetoothScannerSetModeRequest &msg) {
   bluetooth_proxy::global_bluetooth_proxy->bluetooth_scanner_set_mode(
       msg.mode == enums::BluetoothScannerMode::BLUETOOTH_SCANNER_MODE_ACTIVE);
 }
@@ -1139,7 +1160,7 @@ bool APIConnection::check_voice_assistant_api_connection_() const {
          voice_assistant::global_voice_assistant->get_api_connection() == this;
 }
 
-void APIConnection::subscribe_voice_assistant(const SubscribeVoiceAssistantRequest &msg) {
+void APIConnection::on_subscribe_voice_assistant_request(const SubscribeVoiceAssistantRequest &msg) {
   if (voice_assistant::global_voice_assistant != nullptr) {
     voice_assistant::global_voice_assistant->client_subscription(this, msg.subscribe);
   }
@@ -1185,7 +1206,7 @@ void APIConnection::on_voice_assistant_announce_request(const VoiceAssistantAnno
   }
 }
 
-bool APIConnection::send_voice_assistant_get_configuration_response(const VoiceAssistantConfigurationRequest &msg) {
+bool APIConnection::send_voice_assistant_get_configuration_response_(const VoiceAssistantConfigurationRequest &msg) {
   VoiceAssistantConfigurationResponse resp;
   if (!this->check_voice_assistant_api_connection_()) {
     return this->send_message(resp, VoiceAssistantConfigurationResponse::MESSAGE_TYPE);
@@ -1222,8 +1243,13 @@ bool APIConnection::send_voice_assistant_get_configuration_response(const VoiceA
   resp.max_active_wake_words = config.max_active_wake_words;
   return this->send_message(resp, VoiceAssistantConfigurationResponse::MESSAGE_TYPE);
 }
+void APIConnection::on_voice_assistant_configuration_request(const VoiceAssistantConfigurationRequest &msg) {
+  if (!this->send_voice_assistant_get_configuration_response_(msg)) {
+    this->on_fatal_error();
+  }
+}
 
-void APIConnection::voice_assistant_set_configuration(const VoiceAssistantSetConfiguration &msg) {
+void APIConnection::on_voice_assistant_set_configuration(const VoiceAssistantSetConfiguration &msg) {
   if (this->check_voice_assistant_api_connection_()) {
     voice_assistant::global_voice_assistant->on_set_configuration(msg.active_wake_words);
   }
@@ -1231,11 +1257,11 @@ void APIConnection::voice_assistant_set_configuration(const VoiceAssistantSetCon
 #endif
 
 #ifdef USE_ZWAVE_PROXY
-void APIConnection::zwave_proxy_frame(const ZWaveProxyFrame &msg) {
+void APIConnection::on_z_wave_proxy_frame(const ZWaveProxyFrame &msg) {
   zwave_proxy::global_zwave_proxy->send_frame(msg.data, msg.data_len);
 }
 
-void APIConnection::zwave_proxy_request(const ZWaveProxyRequest &msg) {
+void APIConnection::on_z_wave_proxy_request(const ZWaveProxyRequest &msg) {
   zwave_proxy::global_zwave_proxy->zwave_proxy_request(this, msg.type);
 }
 #endif
@@ -1263,7 +1289,7 @@ uint16_t APIConnection::try_send_alarm_control_panel_info(EntityBase *entity, AP
   return fill_and_encode_entity_info(a_alarm_control_panel, msg, ListEntitiesAlarmControlPanelResponse::MESSAGE_TYPE,
                                      conn, remaining_size);
 }
-void APIConnection::alarm_control_panel_command(const AlarmControlPanelCommandRequest &msg) {
+void APIConnection::on_alarm_control_panel_command_request(const AlarmControlPanelCommandRequest &msg) {
   ENTITY_COMMAND_MAKE_CALL(alarm_control_panel::AlarmControlPanel, a_alarm_control_panel, alarm_control_panel)
   switch (msg.command) {
     case enums::ALARM_CONTROL_PANEL_DISARM:
@@ -1323,7 +1349,7 @@ uint16_t APIConnection::try_send_water_heater_info(EntityBase *entity, APIConnec
   return fill_and_encode_entity_info(wh, msg, ListEntitiesWaterHeaterResponse::MESSAGE_TYPE, conn, remaining_size);
 }
 
-void APIConnection::water_heater_command(const WaterHeaterCommandRequest &msg) {
+void APIConnection::on_water_heater_command_request(const WaterHeaterCommandRequest &msg) {
   ENTITY_COMMAND_MAKE_CALL(water_heater::WaterHeater, water_heater, water_heater)
   if (msg.has_fields & enums::WATER_HEATER_COMMAND_HAS_MODE)
     call.set_mode(static_cast<water_heater::WaterHeaterMode>(msg.mode));
@@ -1365,7 +1391,7 @@ uint16_t APIConnection::try_send_event_info(EntityBase *entity, APIConnection *c
 #endif
 
 #ifdef USE_IR_RF
-void APIConnection::infrared_rf_transmit_raw_timings(const InfraredRFTransmitRawTimingsRequest &msg) {
+void APIConnection::on_infrared_rf_transmit_raw_timings_request(const InfraredRFTransmitRawTimingsRequest &msg) {
   // TODO: When RF is implemented, add a field to the message to distinguish IR vs RF
   // and dispatch to the appropriate entity type based on that field.
 #ifdef USE_INFRARED
@@ -1419,7 +1445,7 @@ uint16_t APIConnection::try_send_update_info(EntityBase *entity, APIConnection *
   msg.device_class = update->get_device_class_ref();
   return fill_and_encode_entity_info(update, msg, ListEntitiesUpdateResponse::MESSAGE_TYPE, conn, remaining_size);
 }
-void APIConnection::update_command(const UpdateCommandRequest &msg) {
+void APIConnection::on_update_command_request(const UpdateCommandRequest &msg) {
   ENTITY_COMMAND_GET(update::UpdateEntity, update, update)
 
   switch (msg.command) {
@@ -1470,7 +1496,7 @@ void APIConnection::complete_authentication_() {
 #endif
 }
 
-bool APIConnection::send_hello_response(const HelloRequest &msg) {
+bool APIConnection::send_hello_response_(const HelloRequest &msg) {
   // Copy client name with truncation if needed (set_client_name handles truncation)
   this->helper_->set_client_name(msg.client_info.c_str(), msg.client_info.size());
   this->client_api_version_major_ = msg.api_version_major;
@@ -1491,12 +1517,12 @@ bool APIConnection::send_hello_response(const HelloRequest &msg) {
   return this->send_message(resp, HelloResponse::MESSAGE_TYPE);
 }
 
-bool APIConnection::send_ping_response(const PingRequest &msg) {
+bool APIConnection::send_ping_response_() {
   PingResponse resp;
   return this->send_message(resp, PingResponse::MESSAGE_TYPE);
 }
 
-bool APIConnection::send_device_info_response(const DeviceInfoRequest &msg) {
+bool APIConnection::send_device_info_response_() {
   DeviceInfoResponse resp{};
   resp.name = StringRef(App.get_name());
   resp.friendly_name = StringRef(App.get_friendly_name());
@@ -1619,6 +1645,26 @@ bool APIConnection::send_device_info_response(const DeviceInfoRequest &msg) {
 
   return this->send_message(resp, DeviceInfoResponse::MESSAGE_TYPE);
 }
+void APIConnection::on_hello_request(const HelloRequest &msg) {
+  if (!this->send_hello_response_(msg)) {
+    this->on_fatal_error();
+  }
+}
+void APIConnection::on_disconnect_request() {
+  if (!this->send_disconnect_response_()) {
+    this->on_fatal_error();
+  }
+}
+void APIConnection::on_ping_request() {
+  if (!this->send_ping_response_()) {
+    this->on_fatal_error();
+  }
+}
+void APIConnection::on_device_info_request() {
+  if (!this->send_device_info_response_()) {
+    this->on_fatal_error();
+  }
+}
 
 #ifdef USE_API_HOMEASSISTANT_STATES
 void APIConnection::on_home_assistant_state_response(const HomeAssistantStateResponse &msg) {
@@ -1657,7 +1703,7 @@ void APIConnection::on_home_assistant_state_response(const HomeAssistantStateRes
 }
 #endif
 #ifdef USE_API_USER_DEFINED_ACTIONS
-void APIConnection::execute_service(const ExecuteServiceRequest &msg) {
+void APIConnection::on_execute_service_request(const ExecuteServiceRequest &msg) {
   bool found = false;
 #ifdef USE_API_USER_DEFINED_ACTION_RESPONSES
   // Register the call and get a unique server-generated action_call_id
@@ -1723,7 +1769,7 @@ void APIConnection::on_homeassistant_action_response(const HomeassistantActionRe
 };
 #endif
 #ifdef USE_API_NOISE
-bool APIConnection::send_noise_encryption_set_key_response(const NoiseEncryptionSetKeyRequest &msg) {
+bool APIConnection::send_noise_encryption_set_key_response_(const NoiseEncryptionSetKeyRequest &msg) {
   NoiseEncryptionSetKeyResponse resp;
   resp.success = false;
 
@@ -1744,11 +1790,14 @@ bool APIConnection::send_noise_encryption_set_key_response(const NoiseEncryption
 
   return this->send_message(resp, NoiseEncryptionSetKeyResponse::MESSAGE_TYPE);
 }
+void APIConnection::on_noise_encryption_set_key_request(const NoiseEncryptionSetKeyRequest &msg) {
+  if (!this->send_noise_encryption_set_key_response_(msg)) {
+    this->on_fatal_error();
+  }
+}
 #endif
 #ifdef USE_API_HOMEASSISTANT_STATES
-void APIConnection::subscribe_home_assistant_states(const SubscribeHomeAssistantStatesRequest &msg) {
-  state_subs_at_ = 0;
-}
+void APIConnection::on_subscribe_home_assistant_states_request() { state_subs_at_ = 0; }
 #endif
 bool APIConnection::try_to_clear_buffer(bool log_out_of_space) {
   if (this->flags_.remove)

esphome/components/api/api_connection.h

@@ -15,6 +15,10 @@
 #include <limits>
 #include <vector>
 
+namespace esphome {
+class ComponentIterator;
+}  // namespace esphome
+
 namespace esphome::api {
 
 // Keepalive timeout in milliseconds
@@ -28,7 +32,7 @@ static constexpr size_t MAX_INITIAL_PER_BATCH = 34;         // For clients >= AP
 static_assert(MAX_MESSAGES_PER_BATCH >= MAX_INITIAL_PER_BATCH,
               "MAX_MESSAGES_PER_BATCH must be >= MAX_INITIAL_PER_BATCH");
 
-class APIConnection final : public APIServerConnection {
+class APIConnection final : public APIServerConnectionBase {
  public:
   friend class APIServer;
   friend class ListEntitiesIterator;
@@ -47,72 +51,72 @@ class APIConnection final : public APIServerConnection {
 #endif
 #ifdef USE_COVER
   bool send_cover_state(cover::Cover *cover);
-  void cover_command(const CoverCommandRequest &msg) override;
+  void on_cover_command_request(const CoverCommandRequest &msg) override;
 #endif
 #ifdef USE_FAN
   bool send_fan_state(fan::Fan *fan);
-  void fan_command(const FanCommandRequest &msg) override;
+  void on_fan_command_request(const FanCommandRequest &msg) override;
 #endif
 #ifdef USE_LIGHT
   bool send_light_state(light::LightState *light);
-  void light_command(const LightCommandRequest &msg) override;
+  void on_light_command_request(const LightCommandRequest &msg) override;
 #endif
 #ifdef USE_SENSOR
   bool send_sensor_state(sensor::Sensor *sensor);
 #endif
 #ifdef USE_SWITCH
   bool send_switch_state(switch_::Switch *a_switch);
-  void switch_command(const SwitchCommandRequest &msg) override;
+  void on_switch_command_request(const SwitchCommandRequest &msg) override;
 #endif
 #ifdef USE_TEXT_SENSOR
   bool send_text_sensor_state(text_sensor::TextSensor *text_sensor);
 #endif
 #ifdef USE_CAMERA
   void set_camera_state(std::shared_ptr<camera::CameraImage> image);
-  void camera_image(const CameraImageRequest &msg) override;
+  void on_camera_image_request(const CameraImageRequest &msg) override;
 #endif
 #ifdef USE_CLIMATE
   bool send_climate_state(climate::Climate *climate);
-  void climate_command(const ClimateCommandRequest &msg) override;
+  void on_climate_command_request(const ClimateCommandRequest &msg) override;
 #endif
 #ifdef USE_NUMBER
   bool send_number_state(number::Number *number);
-  void number_command(const NumberCommandRequest &msg) override;
+  void on_number_command_request(const NumberCommandRequest &msg) override;
 #endif
 #ifdef USE_DATETIME_DATE
   bool send_date_state(datetime::DateEntity *date);
-  void date_command(const DateCommandRequest &msg) override;
+  void on_date_command_request(const DateCommandRequest &msg) override;
 #endif
 #ifdef USE_DATETIME_TIME
   bool send_time_state(datetime::TimeEntity *time);
-  void time_command(const TimeCommandRequest &msg) override;
+  void on_time_command_request(const TimeCommandRequest &msg) override;
 #endif
 #ifdef USE_DATETIME_DATETIME
   bool send_datetime_state(datetime::DateTimeEntity *datetime);
-  void datetime_command(const DateTimeCommandRequest &msg) override;
+  void on_date_time_command_request(const DateTimeCommandRequest &msg) override;
 #endif
 #ifdef USE_TEXT
   bool send_text_state(text::Text *text);
-  void text_command(const TextCommandRequest &msg) override;
+  void on_text_command_request(const TextCommandRequest &msg) override;
 #endif
 #ifdef USE_SELECT
   bool send_select_state(select::Select *select);
-  void select_command(const SelectCommandRequest &msg) override;
+  void on_select_command_request(const SelectCommandRequest &msg) override;
 #endif
 #ifdef USE_BUTTON
-  void button_command(const ButtonCommandRequest &msg) override;
+  void on_button_command_request(const ButtonCommandRequest &msg) override;
 #endif
 #ifdef USE_LOCK
   bool send_lock_state(lock::Lock *a_lock);
-  void lock_command(const LockCommandRequest &msg) override;
+  void on_lock_command_request(const LockCommandRequest &msg) override;
 #endif
 #ifdef USE_VALVE
   bool send_valve_state(valve::Valve *valve);
-  void valve_command(const ValveCommandRequest &msg) override;
+  void on_valve_command_request(const ValveCommandRequest &msg) override;
 #endif
 #ifdef USE_MEDIA_PLAYER
   bool send_media_player_state(media_player::MediaPlayer *media_player);
-  void media_player_command(const MediaPlayerCommandRequest &msg) override;
+  void on_media_player_command_request(const MediaPlayerCommandRequest &msg) override;
 #endif
   bool try_send_log_message(int level, const char *tag, const char *line, size_t message_len);
 #ifdef USE_API_HOMEASSISTANT_SERVICES
@@ -126,18 +130,18 @@ class APIConnection final : public APIServerConnection {
 #endif  // USE_API_HOMEASSISTANT_ACTION_RESPONSES
 #endif  // USE_API_HOMEASSISTANT_SERVICES
 #ifdef USE_BLUETOOTH_PROXY
-  void subscribe_bluetooth_le_advertisements(const SubscribeBluetoothLEAdvertisementsRequest &msg) override;
-  void unsubscribe_bluetooth_le_advertisements(const UnsubscribeBluetoothLEAdvertisementsRequest &msg) override;
+  void on_subscribe_bluetooth_le_advertisements_request(const SubscribeBluetoothLEAdvertisementsRequest &msg) override;
+  void on_unsubscribe_bluetooth_le_advertisements_request() override;
 
-  void bluetooth_device_request(const BluetoothDeviceRequest &msg) override;
-  void bluetooth_gatt_read(const BluetoothGATTReadRequest &msg) override;
-  void bluetooth_gatt_write(const BluetoothGATTWriteRequest &msg) override;
-  void bluetooth_gatt_read_descriptor(const BluetoothGATTReadDescriptorRequest &msg) override;
-  void bluetooth_gatt_write_descriptor(const BluetoothGATTWriteDescriptorRequest &msg) override;
-  void bluetooth_gatt_get_services(const BluetoothGATTGetServicesRequest &msg) override;
-  void bluetooth_gatt_notify(const BluetoothGATTNotifyRequest &msg) override;
-  bool send_subscribe_bluetooth_connections_free_response(const SubscribeBluetoothConnectionsFreeRequest &msg) override;
-  void bluetooth_scanner_set_mode(const BluetoothScannerSetModeRequest &msg) override;
+  void on_bluetooth_device_request(const BluetoothDeviceRequest &msg) override;
+  void on_bluetooth_gatt_read_request(const BluetoothGATTReadRequest &msg) override;
+  void on_bluetooth_gatt_write_request(const BluetoothGATTWriteRequest &msg) override;
+  void on_bluetooth_gatt_read_descriptor_request(const BluetoothGATTReadDescriptorRequest &msg) override;
+  void on_bluetooth_gatt_write_descriptor_request(const BluetoothGATTWriteDescriptorRequest &msg) override;
+  void on_bluetooth_gatt_get_services_request(const BluetoothGATTGetServicesRequest &msg) override;
+  void on_bluetooth_gatt_notify_request(const BluetoothGATTNotifyRequest &msg) override;
+  void on_subscribe_bluetooth_connections_free_request() override;
+  void on_bluetooth_scanner_set_mode_request(const BluetoothScannerSetModeRequest &msg) override;
 
 #endif
 #ifdef USE_HOMEASSISTANT_TIME
@@ -148,33 +152,33 @@ class APIConnection final : public APIServerConnection {
 #endif
 
 #ifdef USE_VOICE_ASSISTANT
-  void subscribe_voice_assistant(const SubscribeVoiceAssistantRequest &msg) override;
+  void on_subscribe_voice_assistant_request(const SubscribeVoiceAssistantRequest &msg) override;
   void on_voice_assistant_response(const VoiceAssistantResponse &msg) override;
   void on_voice_assistant_event_response(const VoiceAssistantEventResponse &msg) override;
   void on_voice_assistant_audio(const VoiceAssistantAudio &msg) override;
   void on_voice_assistant_timer_event_response(const VoiceAssistantTimerEventResponse &msg) override;
   void on_voice_assistant_announce_request(const VoiceAssistantAnnounceRequest &msg) override;
-  bool send_voice_assistant_get_configuration_response(const VoiceAssistantConfigurationRequest &msg) override;
-  void voice_assistant_set_configuration(const VoiceAssistantSetConfiguration &msg) override;
+  void on_voice_assistant_configuration_request(const VoiceAssistantConfigurationRequest &msg) override;
+  void on_voice_assistant_set_configuration(const VoiceAssistantSetConfiguration &msg) override;
 #endif
 
 #ifdef USE_ZWAVE_PROXY
-  void zwave_proxy_frame(const ZWaveProxyFrame &msg) override;
-  void zwave_proxy_request(const ZWaveProxyRequest &msg) override;
+  void on_z_wave_proxy_frame(const ZWaveProxyFrame &msg) override;
+  void on_z_wave_proxy_request(const ZWaveProxyRequest &msg) override;
 #endif
 
 #ifdef USE_ALARM_CONTROL_PANEL
   bool send_alarm_control_panel_state(alarm_control_panel::AlarmControlPanel *a_alarm_control_panel);
-  void alarm_control_panel_command(const AlarmControlPanelCommandRequest &msg) override;
+  void on_alarm_control_panel_command_request(const AlarmControlPanelCommandRequest &msg) override;
 #endif
 
 #ifdef USE_WATER_HEATER
   bool send_water_heater_state(water_heater::WaterHeater *water_heater);
-  void water_heater_command(const WaterHeaterCommandRequest &msg) override;
+  void on_water_heater_command_request(const WaterHeaterCommandRequest &msg) override;
 #endif
 
 #ifdef USE_IR_RF
-  void infrared_rf_transmit_raw_timings(const InfraredRFTransmitRawTimingsRequest &msg) override;
+  void on_infrared_rf_transmit_raw_timings_request(const InfraredRFTransmitRawTimingsRequest &msg) override;
   void send_infrared_rf_receive_event(const InfraredRFReceiveEvent &msg);
 #endif
 
@@ -184,11 +188,11 @@ class APIConnection final : public APIServerConnection {
 
 #ifdef USE_UPDATE
   bool send_update_state(update::UpdateEntity *update);
-  void update_command(const UpdateCommandRequest &msg) override;
+  void on_update_command_request(const UpdateCommandRequest &msg) override;
 #endif
 
-  void on_disconnect_response(const DisconnectResponse &value) override;
-  void on_ping_response(const PingResponse &value) override {
+  void on_disconnect_response() override;
+  void on_ping_response() override {
     // we initiated ping
     this->flags_.sent_ping = false;
   }
@@ -198,12 +202,12 @@ class APIConnection final : public APIServerConnection {
 #ifdef USE_HOMEASSISTANT_TIME
   void on_get_time_response(const GetTimeResponse &value) override;
 #endif
-  bool send_hello_response(const HelloRequest &msg) override;
-  bool send_disconnect_response(const DisconnectRequest &msg) override;
-  bool send_ping_response(const PingRequest &msg) override;
-  bool send_device_info_response(const DeviceInfoRequest &msg) override;
-  void list_entities(const ListEntitiesRequest &msg) override { this->begin_iterator_(ActiveIterator::LIST_ENTITIES); }
-  void subscribe_states(const SubscribeStatesRequest &msg) override {
+  void on_hello_request(const HelloRequest &msg) override;
+  void on_disconnect_request() override;
+  void on_ping_request() override;
+  void on_device_info_request() override;
+  void on_list_entities_request() override { this->begin_iterator_(ActiveIterator::LIST_ENTITIES); }
+  void on_subscribe_states_request() override {
     this->flags_.state_subscription = true;
     // Start initial state iterator only if no iterator is active
     // If list_entities is running, we'll start initial_state when it completes
@@ -211,21 +215,19 @@ class APIConnection final : public APIServerConnection {
       this->begin_iterator_(ActiveIterator::INITIAL_STATE);
     }
   }
-  void subscribe_logs(const SubscribeLogsRequest &msg) override {
+  void on_subscribe_logs_request(const SubscribeLogsRequest &msg) override {
     this->flags_.log_subscription = msg.level;
     if (msg.dump_config)
       App.schedule_dump_config();
   }
 #ifdef USE_API_HOMEASSISTANT_SERVICES
-  void subscribe_homeassistant_services(const SubscribeHomeassistantServicesRequest &msg) override {
-    this->flags_.service_call_subscription = true;
-  }
+  void on_subscribe_homeassistant_services_request() override { this->flags_.service_call_subscription = true; }
 #endif
 #ifdef USE_API_HOMEASSISTANT_STATES
-  void subscribe_home_assistant_states(const SubscribeHomeAssistantStatesRequest &msg) override;
+  void on_subscribe_home_assistant_states_request() override;
 #endif
 #ifdef USE_API_USER_DEFINED_ACTIONS
-  void execute_service(const ExecuteServiceRequest &msg) override;
+  void on_execute_service_request(const ExecuteServiceRequest &msg) override;
 #ifdef USE_API_USER_DEFINED_ACTION_RESPONSES
   void send_execute_service_response(uint32_t call_id, bool success, StringRef error_message);
 #ifdef USE_API_USER_DEFINED_ACTION_RESPONSES_JSON
@@ -235,7 +237,7 @@ class APIConnection final : public APIServerConnection {
 #endif  // USE_API_USER_DEFINED_ACTION_RESPONSES
 #endif
 #ifdef USE_API_NOISE
-  bool send_noise_encryption_set_key_response(const NoiseEncryptionSetKeyRequest &msg) override;
+  void on_noise_encryption_set_key_request(const NoiseEncryptionSetKeyRequest &msg) override;
 #endif
 
   bool is_authenticated() override {
@@ -285,6 +287,21 @@ class APIConnection final : public APIServerConnection {
   // Helper function to handle authentication completion
   void complete_authentication_();
 
+  // Pattern B helpers: send response and return success/failure
+  bool send_hello_response_(const HelloRequest &msg);
+  bool send_disconnect_response_();
+  bool send_ping_response_();
+  bool send_device_info_response_();
+#ifdef USE_API_NOISE
+  bool send_noise_encryption_set_key_response_(const NoiseEncryptionSetKeyRequest &msg);
+#endif
+#ifdef USE_BLUETOOTH_PROXY
+  bool send_subscribe_bluetooth_connections_free_response_();
+#endif
+#ifdef USE_VOICE_ASSISTANT
+  bool send_voice_assistant_get_configuration_response_(const VoiceAssistantConfigurationRequest &msg);
+#endif
+
 #ifdef USE_CAMERA
   void try_send_camera_image_();
 #endif
@@ -351,20 +368,13 @@ class APIConnection final : public APIServerConnection {
     return this->client_supports_api_version(1, 14) ? MAX_INITIAL_PER_BATCH : MAX_INITIAL_PER_BATCH_LEGACY;
   }
 
-  // Helper method to process multiple entities from an iterator in a batch
-  template<typename Iterator> void process_iterator_batch_(Iterator &iterator) {
-    size_t initial_size = this->deferred_batch_.size();
-    size_t max_batch = this->get_max_batch_size_();
-    while (!iterator.completed() && (this->deferred_batch_.size() - initial_size) < max_batch) {
-      iterator.advance();
-    }
+  // Process active iterator (list_entities/initial_state) during connection setup.
+  // Extracted from loop() — only runs during initial handshake, NONE in steady state.
+  void __attribute__((noinline)) process_active_iterator_();
 
-    // If the batch is full, process it immediately
-    // Note: iterator.advance() already calls schedule_batch_() via schedule_message_()
-    if (this->deferred_batch_.size() >= max_batch) {
-      this->process_batch_();
-    }
-  }
+  // Helper method to process multiple entities from an iterator in a batch.
+  // Takes ComponentIterator base class reference to avoid duplicate template instantiations.
+  void process_iterator_batch_(ComponentIterator &iterator);
 
 #ifdef USE_BINARY_SENSOR
   static uint16_t try_send_binary_sensor_state(EntityBase *entity, APIConnection *conn, uint32_t remaining_size);

esphome/components/api/api_pb2.h

@@ -440,19 +440,6 @@ class PingResponse final : public ProtoMessage {
 
  protected:
 };
-class DeviceInfoRequest final : public ProtoMessage {
- public:
-  static constexpr uint8_t MESSAGE_TYPE = 9;
-  static constexpr uint8_t ESTIMATED_SIZE = 0;
-#ifdef HAS_PROTO_MESSAGE_DUMP
-  const char *message_name() const override { return "device_info_request"; }
-#endif
-#ifdef HAS_PROTO_MESSAGE_DUMP
-  const char *dump_to(DumpBuffer &out) const override;
-#endif
-
- protected:
-};
 #ifdef USE_AREAS
 class AreaInfo final : public ProtoMessage {
  public:
@@ -546,19 +533,6 @@ class DeviceInfoResponse final : public ProtoMessage {
 
  protected:
 };
-class ListEntitiesRequest final : public ProtoMessage {
- public:
-  static constexpr uint8_t MESSAGE_TYPE = 11;
-  static constexpr uint8_t ESTIMATED_SIZE = 0;
-#ifdef HAS_PROTO_MESSAGE_DUMP
-  const char *message_name() const override { return "list_entities_request"; }
-#endif
-#ifdef HAS_PROTO_MESSAGE_DUMP
-  const char *dump_to(DumpBuffer &out) const override;
-#endif
-
- protected:
-};
 class ListEntitiesDoneResponse final : public ProtoMessage {
  public:
   static constexpr uint8_t MESSAGE_TYPE = 19;
@@ -572,19 +546,6 @@ class ListEntitiesDoneResponse final : public ProtoMessage {
 
  protected:
 };
-class SubscribeStatesRequest final : public ProtoMessage {
- public:
-  static constexpr uint8_t MESSAGE_TYPE = 20;
-  static constexpr uint8_t ESTIMATED_SIZE = 0;
-#ifdef HAS_PROTO_MESSAGE_DUMP
-  const char *message_name() const override { return "subscribe_states_request"; }
-#endif
-#ifdef HAS_PROTO_MESSAGE_DUMP
-  const char *dump_to(DumpBuffer &out) const override;
-#endif
-
- protected:
-};
 #ifdef USE_BINARY_SENSOR
 class ListEntitiesBinarySensorResponse final : public InfoResponseProtoMessage {
  public:
@@ -1037,19 +998,6 @@ class NoiseEncryptionSetKeyResponse final : public ProtoMessage {
 };
 #endif
 #ifdef USE_API_HOMEASSISTANT_SERVICES
-class SubscribeHomeassistantServicesRequest final : public ProtoMessage {
- public:
-  static constexpr uint8_t MESSAGE_TYPE = 34;
-  static constexpr uint8_t ESTIMATED_SIZE = 0;
-#ifdef HAS_PROTO_MESSAGE_DUMP
-  const char *message_name() const override { return "subscribe_homeassistant_services_request"; }
-#endif
-#ifdef HAS_PROTO_MESSAGE_DUMP
-  const char *dump_to(DumpBuffer &out) const override;
-#endif
-
- protected:
-};
 class HomeassistantServiceMap final : public ProtoMessage {
  public:
   StringRef key{};
@@ -1117,19 +1065,6 @@ class HomeassistantActionResponse final : public ProtoDecodableMessage {
 };
 #endif
 #ifdef USE_API_HOMEASSISTANT_STATES
-class SubscribeHomeAssistantStatesRequest final : public ProtoMessage {
- public:
-  static constexpr uint8_t MESSAGE_TYPE = 38;
-  static constexpr uint8_t ESTIMATED_SIZE = 0;
-#ifdef HAS_PROTO_MESSAGE_DUMP
-  const char *message_name() const override { return "subscribe_home_assistant_states_request"; }
-#endif
-#ifdef HAS_PROTO_MESSAGE_DUMP
-  const char *dump_to(DumpBuffer &out) const override;
-#endif
-
- protected:
-};
 class SubscribeHomeAssistantStateResponse final : public ProtoMessage {
  public:
   static constexpr uint8_t MESSAGE_TYPE = 39;
@@ -2160,19 +2095,6 @@ class BluetoothGATTNotifyDataResponse final : public ProtoMessage {
 
  protected:
 };
-class SubscribeBluetoothConnectionsFreeRequest final : public ProtoMessage {
- public:
-  static constexpr uint8_t MESSAGE_TYPE = 80;
-  static constexpr uint8_t ESTIMATED_SIZE = 0;
-#ifdef HAS_PROTO_MESSAGE_DUMP
-  const char *message_name() const override { return "subscribe_bluetooth_connections_free_request"; }
-#endif
-#ifdef HAS_PROTO_MESSAGE_DUMP
-  const char *dump_to(DumpBuffer &out) const override;
-#endif
-
- protected:
-};
 class BluetoothConnectionsFreeResponse final : public ProtoMessage {
  public:
   static constexpr uint8_t MESSAGE_TYPE = 81;
@@ -2279,19 +2201,6 @@ class BluetoothDeviceUnpairingResponse final : public ProtoMessage {
 
  protected:
 };
-class UnsubscribeBluetoothLEAdvertisementsRequest final : public ProtoMessage {
- public:
-  static constexpr uint8_t MESSAGE_TYPE = 87;
-  static constexpr uint8_t ESTIMATED_SIZE = 0;
-#ifdef HAS_PROTO_MESSAGE_DUMP
-  const char *message_name() const override { return "unsubscribe_bluetooth_le_advertisements_request"; }
-#endif
-#ifdef HAS_PROTO_MESSAGE_DUMP
-  const char *dump_to(DumpBuffer &out) const override;
-#endif
-
- protected:
-};
 class BluetoothDeviceClearCacheResponse final : public ProtoMessage {
  public:
   static constexpr uint8_t MESSAGE_TYPE = 88;

esphome/components/api/api_pb2_dump.cpp

@@ -764,10 +764,6 @@ const char *PingResponse::dump_to(DumpBuffer &out) const {
   out.append("PingResponse {}");
   return out.c_str();
 }
-const char *DeviceInfoRequest::dump_to(DumpBuffer &out) const {
-  out.append("DeviceInfoRequest {}");
-  return out.c_str();
-}
 #ifdef USE_AREAS
 const char *AreaInfo::dump_to(DumpBuffer &out) const {
   MessageDumpHelper helper(out, "AreaInfo");
@@ -848,18 +844,10 @@ const char *DeviceInfoResponse::dump_to(DumpBuffer &out) const {
 #endif
   return out.c_str();
 }
-const char *ListEntitiesRequest::dump_to(DumpBuffer &out) const {
-  out.append("ListEntitiesRequest {}");
-  return out.c_str();
-}
 const char *ListEntitiesDoneResponse::dump_to(DumpBuffer &out) const {
   out.append("ListEntitiesDoneResponse {}");
   return out.c_str();
 }
-const char *SubscribeStatesRequest::dump_to(DumpBuffer &out) const {
-  out.append("SubscribeStatesRequest {}");
-  return out.c_str();
-}
 #ifdef USE_BINARY_SENSOR
 const char *ListEntitiesBinarySensorResponse::dump_to(DumpBuffer &out) const {
   MessageDumpHelper helper(out, "ListEntitiesBinarySensorResponse");
@@ -1191,10 +1179,6 @@ const char *NoiseEncryptionSetKeyResponse::dump_to(DumpBuffer &out) const {
 }
 #endif
 #ifdef USE_API_HOMEASSISTANT_SERVICES
-const char *SubscribeHomeassistantServicesRequest::dump_to(DumpBuffer &out) const {
-  out.append("SubscribeHomeassistantServicesRequest {}");
-  return out.c_str();
-}
 const char *HomeassistantServiceMap::dump_to(DumpBuffer &out) const {
   MessageDumpHelper helper(out, "HomeassistantServiceMap");
   dump_field(out, "key", this->key);
@@ -1245,10 +1229,6 @@ const char *HomeassistantActionResponse::dump_to(DumpBuffer &out) const {
 }
 #endif
 #ifdef USE_API_HOMEASSISTANT_STATES
-const char *SubscribeHomeAssistantStatesRequest::dump_to(DumpBuffer &out) const {
-  out.append("SubscribeHomeAssistantStatesRequest {}");
-  return out.c_str();
-}
 const char *SubscribeHomeAssistantStateResponse::dump_to(DumpBuffer &out) const {
   MessageDumpHelper helper(out, "SubscribeHomeAssistantStateResponse");
   dump_field(out, "entity_id", this->entity_id);
@@ -1924,10 +1904,6 @@ const char *BluetoothGATTNotifyDataResponse::dump_to(DumpBuffer &out) const {
   dump_bytes_field(out, "data", this->data_ptr_, this->data_len_);
   return out.c_str();
 }
-const char *SubscribeBluetoothConnectionsFreeRequest::dump_to(DumpBuffer &out) const {
-  out.append("SubscribeBluetoothConnectionsFreeRequest {}");
-  return out.c_str();
-}
 const char *BluetoothConnectionsFreeResponse::dump_to(DumpBuffer &out) const {
   MessageDumpHelper helper(out, "BluetoothConnectionsFreeResponse");
   dump_field(out, "free", this->free);
@@ -1970,10 +1946,6 @@ const char *BluetoothDeviceUnpairingResponse::dump_to(DumpBuffer &out) const {
   dump_field(out, "error", this->error);
   return out.c_str();
 }
-const char *UnsubscribeBluetoothLEAdvertisementsRequest::dump_to(DumpBuffer &out) const {
-  out.append("UnsubscribeBluetoothLEAdvertisementsRequest {}");
-  return out.c_str();
-}
 const char *BluetoothDeviceClearCacheResponse::dump_to(DumpBuffer &out) const {
   MessageDumpHelper helper(out, "BluetoothDeviceClearCacheResponse");
   dump_field(out, "address", this->address);

esphome/components/api/api_pb2_service.cpp

@@ -15,9 +15,29 @@ void APIServerConnectionBase::log_receive_message_(const LogString *name, const
   DumpBuffer dump_buf;
   ESP_LOGVV(TAG, "%s: %s", LOG_STR_ARG(name), msg.dump_to(dump_buf));
 }
+void APIServerConnectionBase::log_receive_message_(const LogString *name) {
+  ESP_LOGVV(TAG, "%s: {}", LOG_STR_ARG(name));
+}
 #endif
 
 void APIServerConnectionBase::read_message(uint32_t msg_size, uint32_t msg_type, const uint8_t *msg_data) {
+  // Check authentication/connection requirements
+  switch (msg_type) {
+    case HelloRequest::MESSAGE_TYPE:       // No setup required
+    case DisconnectRequest::MESSAGE_TYPE:  // No setup required
+    case PingRequest::MESSAGE_TYPE:        // No setup required
+      break;
+    case 9 /* DeviceInfoRequest is empty */:  // Connection setup only
+      if (!this->check_connection_setup_()) {
+        return;
+      }
+      break;
+    default:
+      if (!this->check_authenticated_()) {
+        return;
+      }
+      break;
+  }
   switch (msg_type) {
     case HelloRequest::MESSAGE_TYPE: {
       HelloRequest msg;
@@ -29,66 +49,52 @@ void APIServerConnectionBase::read_message(uint32_t msg_size, uint32_t msg_type,
       break;
     }
     case DisconnectRequest::MESSAGE_TYPE: {
-      DisconnectRequest msg;
-      // Empty message: no decode needed
 #ifdef HAS_PROTO_MESSAGE_DUMP
-      this->log_receive_message_(LOG_STR("on_disconnect_request"), msg);
+      this->log_receive_message_(LOG_STR("on_disconnect_request"));
 #endif
-      this->on_disconnect_request(msg);
+      this->on_disconnect_request();
       break;
     }
     case DisconnectResponse::MESSAGE_TYPE: {
-      DisconnectResponse msg;
-      // Empty message: no decode needed
 #ifdef HAS_PROTO_MESSAGE_DUMP
-      this->log_receive_message_(LOG_STR("on_disconnect_response"), msg);
+      this->log_receive_message_(LOG_STR("on_disconnect_response"));
 #endif
-      this->on_disconnect_response(msg);
+      this->on_disconnect_response();
       break;
     }
     case PingRequest::MESSAGE_TYPE: {
-      PingRequest msg;
-      // Empty message: no decode needed
 #ifdef HAS_PROTO_MESSAGE_DUMP
-      this->log_receive_message_(LOG_STR("on_ping_request"), msg);
+      this->log_receive_message_(LOG_STR("on_ping_request"));
 #endif
-      this->on_ping_request(msg);
+      this->on_ping_request();
       break;
     }
     case PingResponse::MESSAGE_TYPE: {
-      PingResponse msg;
-      // Empty message: no decode needed
 #ifdef HAS_PROTO_MESSAGE_DUMP
-      this->log_receive_message_(LOG_STR("on_ping_response"), msg);
+      this->log_receive_message_(LOG_STR("on_ping_response"));
 #endif
-      this->on_ping_response(msg);
+      this->on_ping_response();
       break;
     }
-    case DeviceInfoRequest::MESSAGE_TYPE: {
-      DeviceInfoRequest msg;
-      // Empty message: no decode needed
+    case 9 /* DeviceInfoRequest is empty */: {
 #ifdef HAS_PROTO_MESSAGE_DUMP
-      this->log_receive_message_(LOG_STR("on_device_info_request"), msg);
+      this->log_receive_message_(LOG_STR("on_device_info_request"));
 #endif
-      this->on_device_info_request(msg);
+      this->on_device_info_request();
       break;
     }
-    case ListEntitiesRequest::MESSAGE_TYPE: {
-      ListEntitiesRequest msg;
-      // Empty message: no decode needed
+    case 11 /* ListEntitiesRequest is empty */: {
 #ifdef HAS_PROTO_MESSAGE_DUMP
-      this->log_receive_message_(LOG_STR("on_list_entities_request"), msg);
+      this->log_receive_message_(LOG_STR("on_list_entities_request"));
 #endif
-      this->on_list_entities_request(msg);
+      this->on_list_entities_request();
       break;
     }
-    case SubscribeStatesRequest::MESSAGE_TYPE: {
-      SubscribeStatesRequest msg;
-      // Empty message: no decode needed
+    case 20 /* SubscribeStatesRequest is empty */: {
 #ifdef HAS_PROTO_MESSAGE_DUMP
-      this->log_receive_message_(LOG_STR("on_subscribe_states_request"), msg);
+      this->log_receive_message_(LOG_STR("on_subscribe_states_request"));
 #endif
-      this->on_subscribe_states_request(msg);
+      this->on_subscribe_states_request();
       break;
     }
     case SubscribeLogsRequest::MESSAGE_TYPE: {
@@ -145,13 +151,11 @@ void APIServerConnectionBase::read_message(uint32_t msg_size, uint32_t msg_type,
     }
 #endif
 #ifdef USE_API_HOMEASSISTANT_SERVICES
-    case SubscribeHomeassistantServicesRequest::MESSAGE_TYPE: {
-      SubscribeHomeassistantServicesRequest msg;
-      // Empty message: no decode needed
+    case 34 /* SubscribeHomeassistantServicesRequest is empty */: {
 #ifdef HAS_PROTO_MESSAGE_DUMP
-      this->log_receive_message_(LOG_STR("on_subscribe_homeassistant_services_request"), msg);
+      this->log_receive_message_(LOG_STR("on_subscribe_homeassistant_services_request"));
 #endif
-      this->on_subscribe_homeassistant_services_request(msg);
+      this->on_subscribe_homeassistant_services_request();
       break;
     }
 #endif
@@ -165,13 +169,11 @@ void APIServerConnectionBase::read_message(uint32_t msg_size, uint32_t msg_type,
       break;
     }
 #ifdef USE_API_HOMEASSISTANT_STATES
-    case SubscribeHomeAssistantStatesRequest::MESSAGE_TYPE: {
-      SubscribeHomeAssistantStatesRequest msg;
-      // Empty message: no decode needed
+    case 38 /* SubscribeHomeAssistantStatesRequest is empty */: {
 #ifdef HAS_PROTO_MESSAGE_DUMP
-      this->log_receive_message_(LOG_STR("on_subscribe_home_assistant_states_request"), msg);
+      this->log_receive_message_(LOG_STR("on_subscribe_home_assistant_states_request"));
 #endif
-      this->on_subscribe_home_assistant_states_request(msg);
+      this->on_subscribe_home_assistant_states_request();
       break;
     }
 #endif
@@ -374,24 +376,20 @@ void APIServerConnectionBase::read_message(uint32_t msg_size, uint32_t msg_type,
     }
 #endif
 #ifdef USE_BLUETOOTH_PROXY
-    case SubscribeBluetoothConnectionsFreeRequest::MESSAGE_TYPE: {
-      SubscribeBluetoothConnectionsFreeRequest msg;
-      // Empty message: no decode needed
+    case 80 /* SubscribeBluetoothConnectionsFreeRequest is empty */: {
 #ifdef HAS_PROTO_MESSAGE_DUMP
-      this->log_receive_message_(LOG_STR("on_subscribe_bluetooth_connections_free_request"), msg);
+      this->log_receive_message_(LOG_STR("on_subscribe_bluetooth_connections_free_request"));
 #endif
-      this->on_subscribe_bluetooth_connections_free_request(msg);
+      this->on_subscribe_bluetooth_connections_free_request();
       break;
     }
 #endif
 #ifdef USE_BLUETOOTH_PROXY
-    case UnsubscribeBluetoothLEAdvertisementsRequest::MESSAGE_TYPE: {
-      UnsubscribeBluetoothLEAdvertisementsRequest msg;
-      // Empty message: no decode needed
+    case 87 /* UnsubscribeBluetoothLEAdvertisementsRequest is empty */: {
 #ifdef HAS_PROTO_MESSAGE_DUMP
-      this->log_receive_message_(LOG_STR("on_unsubscribe_bluetooth_le_advertisements_request"), msg);
+      this->log_receive_message_(LOG_STR("on_unsubscribe_bluetooth_le_advertisements_request"));
 #endif
-      this->on_unsubscribe_bluetooth_le_advertisements_request(msg);
+      this->on_unsubscribe_bluetooth_le_advertisements_request();
       break;
     }
 #endif
@@ -642,231 +640,4 @@ void APIServerConnectionBase::read_message(uint32_t msg_size, uint32_t msg_type,
   }
 }
 
-void APIServerConnection::on_hello_request(const HelloRequest &msg) {
-  if (!this->send_hello_response(msg)) {
-    this->on_fatal_error();
-  }
-}
-void APIServerConnection::on_disconnect_request(const DisconnectRequest &msg) {
-  if (!this->send_disconnect_response(msg)) {
-    this->on_fatal_error();
-  }
-}
-void APIServerConnection::on_ping_request(const PingRequest &msg) {
-  if (!this->send_ping_response(msg)) {
-    this->on_fatal_error();
-  }
-}
-void APIServerConnection::on_device_info_request(const DeviceInfoRequest &msg) {
-  if (!this->send_device_info_response(msg)) {
-    this->on_fatal_error();
-  }
-}
-void APIServerConnection::on_list_entities_request(const ListEntitiesRequest &msg) { this->list_entities(msg); }
-void APIServerConnection::on_subscribe_states_request(const SubscribeStatesRequest &msg) {
-  this->subscribe_states(msg);
-}
-void APIServerConnection::on_subscribe_logs_request(const SubscribeLogsRequest &msg) { this->subscribe_logs(msg); }
-#ifdef USE_API_HOMEASSISTANT_SERVICES
-void APIServerConnection::on_subscribe_homeassistant_services_request(
-    const SubscribeHomeassistantServicesRequest &msg) {
-  this->subscribe_homeassistant_services(msg);
-}
-#endif
-#ifdef USE_API_HOMEASSISTANT_STATES
-void APIServerConnection::on_subscribe_home_assistant_states_request(const SubscribeHomeAssistantStatesRequest &msg) {
-  this->subscribe_home_assistant_states(msg);
-}
-#endif
-#ifdef USE_API_USER_DEFINED_ACTIONS
-void APIServerConnection::on_execute_service_request(const ExecuteServiceRequest &msg) { this->execute_service(msg); }
-#endif
-#ifdef USE_API_NOISE
-void APIServerConnection::on_noise_encryption_set_key_request(const NoiseEncryptionSetKeyRequest &msg) {
-  if (!this->send_noise_encryption_set_key_response(msg)) {
-    this->on_fatal_error();
-  }
-}
-#endif
-#ifdef USE_BUTTON
-void APIServerConnection::on_button_command_request(const ButtonCommandRequest &msg) { this->button_command(msg); }
-#endif
-#ifdef USE_CAMERA
-void APIServerConnection::on_camera_image_request(const CameraImageRequest &msg) { this->camera_image(msg); }
-#endif
-#ifdef USE_CLIMATE
-void APIServerConnection::on_climate_command_request(const ClimateCommandRequest &msg) { this->climate_command(msg); }
-#endif
-#ifdef USE_COVER
-void APIServerConnection::on_cover_command_request(const CoverCommandRequest &msg) { this->cover_command(msg); }
-#endif
-#ifdef USE_DATETIME_DATE
-void APIServerConnection::on_date_command_request(const DateCommandRequest &msg) { this->date_command(msg); }
-#endif
-#ifdef USE_DATETIME_DATETIME
-void APIServerConnection::on_date_time_command_request(const DateTimeCommandRequest &msg) {
-  this->datetime_command(msg);
-}
-#endif
-#ifdef USE_FAN
-void APIServerConnection::on_fan_command_request(const FanCommandRequest &msg) { this->fan_command(msg); }
-#endif
-#ifdef USE_LIGHT
-void APIServerConnection::on_light_command_request(const LightCommandRequest &msg) { this->light_command(msg); }
-#endif
-#ifdef USE_LOCK
-void APIServerConnection::on_lock_command_request(const LockCommandRequest &msg) { this->lock_command(msg); }
-#endif
-#ifdef USE_MEDIA_PLAYER
-void APIServerConnection::on_media_player_command_request(const MediaPlayerCommandRequest &msg) {
-  this->media_player_command(msg);
-}
-#endif
-#ifdef USE_NUMBER
-void APIServerConnection::on_number_command_request(const NumberCommandRequest &msg) { this->number_command(msg); }
-#endif
-#ifdef USE_SELECT
-void APIServerConnection::on_select_command_request(const SelectCommandRequest &msg) { this->select_command(msg); }
-#endif
-#ifdef USE_SIREN
-void APIServerConnection::on_siren_command_request(const SirenCommandRequest &msg) { this->siren_command(msg); }
-#endif
-#ifdef USE_SWITCH
-void APIServerConnection::on_switch_command_request(const SwitchCommandRequest &msg) { this->switch_command(msg); }
-#endif
-#ifdef USE_TEXT
-void APIServerConnection::on_text_command_request(const TextCommandRequest &msg) { this->text_command(msg); }
-#endif
-#ifdef USE_DATETIME_TIME
-void APIServerConnection::on_time_command_request(const TimeCommandRequest &msg) { this->time_command(msg); }
-#endif
-#ifdef USE_UPDATE
-void APIServerConnection::on_update_command_request(const UpdateCommandRequest &msg) { this->update_command(msg); }
-#endif
-#ifdef USE_VALVE
-void APIServerConnection::on_valve_command_request(const ValveCommandRequest &msg) { this->valve_command(msg); }
-#endif
-#ifdef USE_WATER_HEATER
-void APIServerConnection::on_water_heater_command_request(const WaterHeaterCommandRequest &msg) {
-  this->water_heater_command(msg);
-}
-#endif
-#ifdef USE_BLUETOOTH_PROXY
-void APIServerConnection::on_subscribe_bluetooth_le_advertisements_request(
-    const SubscribeBluetoothLEAdvertisementsRequest &msg) {
-  this->subscribe_bluetooth_le_advertisements(msg);
-}
-#endif
-#ifdef USE_BLUETOOTH_PROXY
-void APIServerConnection::on_bluetooth_device_request(const BluetoothDeviceRequest &msg) {
-  this->bluetooth_device_request(msg);
-}
-#endif
-#ifdef USE_BLUETOOTH_PROXY
-void APIServerConnection::on_bluetooth_gatt_get_services_request(const BluetoothGATTGetServicesRequest &msg) {
-  this->bluetooth_gatt_get_services(msg);
-}
-#endif
-#ifdef USE_BLUETOOTH_PROXY
-void APIServerConnection::on_bluetooth_gatt_read_request(const BluetoothGATTReadRequest &msg) {
-  this->bluetooth_gatt_read(msg);
-}
-#endif
-#ifdef USE_BLUETOOTH_PROXY
-void APIServerConnection::on_bluetooth_gatt_write_request(const BluetoothGATTWriteRequest &msg) {
-  this->bluetooth_gatt_write(msg);
-}
-#endif
-#ifdef USE_BLUETOOTH_PROXY
-void APIServerConnection::on_bluetooth_gatt_read_descriptor_request(const BluetoothGATTReadDescriptorRequest &msg) {
-  this->bluetooth_gatt_read_descriptor(msg);
-}
-#endif
-#ifdef USE_BLUETOOTH_PROXY
-void APIServerConnection::on_bluetooth_gatt_write_descriptor_request(const BluetoothGATTWriteDescriptorRequest &msg) {
-  this->bluetooth_gatt_write_descriptor(msg);
-}
-#endif
-#ifdef USE_BLUETOOTH_PROXY
-void APIServerConnection::on_bluetooth_gatt_notify_request(const BluetoothGATTNotifyRequest &msg) {
-  this->bluetooth_gatt_notify(msg);
-}
-#endif
-#ifdef USE_BLUETOOTH_PROXY
-void APIServerConnection::on_subscribe_bluetooth_connections_free_request(
-    const SubscribeBluetoothConnectionsFreeRequest &msg) {
-  if (!this->send_subscribe_bluetooth_connections_free_response(msg)) {
-    this->on_fatal_error();
-  }
-}
-#endif
-#ifdef USE_BLUETOOTH_PROXY
-void APIServerConnection::on_unsubscribe_bluetooth_le_advertisements_request(
-    const UnsubscribeBluetoothLEAdvertisementsRequest &msg) {
-  this->unsubscribe_bluetooth_le_advertisements(msg);
-}
-#endif
-#ifdef USE_BLUETOOTH_PROXY
-void APIServerConnection::on_bluetooth_scanner_set_mode_request(const BluetoothScannerSetModeRequest &msg) {
-  this->bluetooth_scanner_set_mode(msg);
-}
-#endif
-#ifdef USE_VOICE_ASSISTANT
-void APIServerConnection::on_subscribe_voice_assistant_request(const SubscribeVoiceAssistantRequest &msg) {
-  this->subscribe_voice_assistant(msg);
-}
-#endif
-#ifdef USE_VOICE_ASSISTANT
-void APIServerConnection::on_voice_assistant_configuration_request(const VoiceAssistantConfigurationRequest &msg) {
-  if (!this->send_voice_assistant_get_configuration_response(msg)) {
-    this->on_fatal_error();
-  }
-}
-#endif
-#ifdef USE_VOICE_ASSISTANT
-void APIServerConnection::on_voice_assistant_set_configuration(const VoiceAssistantSetConfiguration &msg) {
-  this->voice_assistant_set_configuration(msg);
-}
-#endif
-#ifdef USE_ALARM_CONTROL_PANEL
-void APIServerConnection::on_alarm_control_panel_command_request(const AlarmControlPanelCommandRequest &msg) {
-  this->alarm_control_panel_command(msg);
-}
-#endif
-#ifdef USE_ZWAVE_PROXY
-void APIServerConnection::on_z_wave_proxy_frame(const ZWaveProxyFrame &msg) { this->zwave_proxy_frame(msg); }
-#endif
-#ifdef USE_ZWAVE_PROXY
-void APIServerConnection::on_z_wave_proxy_request(const ZWaveProxyRequest &msg) { this->zwave_proxy_request(msg); }
-#endif
-#ifdef USE_IR_RF
-void APIServerConnection::on_infrared_rf_transmit_raw_timings_request(const InfraredRFTransmitRawTimingsRequest &msg) {
-  this->infrared_rf_transmit_raw_timings(msg);
-}
-#endif
-
-void APIServerConnection::read_message(uint32_t msg_size, uint32_t msg_type, const uint8_t *msg_data) {
-  // Check authentication/connection requirements for messages
-  switch (msg_type) {
-    case HelloRequest::MESSAGE_TYPE:       // No setup required
-    case DisconnectRequest::MESSAGE_TYPE:  // No setup required
-    case PingRequest::MESSAGE_TYPE:        // No setup required
-      break;                               // Skip all checks for these messages
-    case DeviceInfoRequest::MESSAGE_TYPE:  // Connection setup only
-      if (!this->check_connection_setup_()) {
-        return;  // Connection not setup
-      }
-      break;
-    default:
-      // All other messages require authentication (which includes connection check)
-      if (!this->check_authenticated_()) {
-        return;  // Authentication failed
-      }
-      break;
-  }
-
-  // Call base implementation to process the message
-  APIServerConnectionBase::read_message(msg_size, msg_type, msg_data);
-}
-
 }  // namespace esphome::api

esphome/components/api/api_pb2_service.h

@@ -14,6 +14,7 @@ class APIServerConnectionBase : public ProtoService {
  protected:
   void log_send_message_(const char *name, const char *dump);
   void log_receive_message_(const LogString *name, const ProtoMessage &msg);
+  void log_receive_message_(const LogString *name);
 
  public:
 #endif
@@ -28,15 +29,15 @@ class APIServerConnectionBase : public ProtoService {
 
   virtual void on_hello_request(const HelloRequest &value){};
 
-  virtual void on_disconnect_request(const DisconnectRequest &value){};
-  virtual void on_disconnect_response(const DisconnectResponse &value){};
-  virtual void on_ping_request(const PingRequest &value){};
-  virtual void on_ping_response(const PingResponse &value){};
-  virtual void on_device_info_request(const DeviceInfoRequest &value){};
+  virtual void on_disconnect_request(){};
+  virtual void on_disconnect_response(){};
+  virtual void on_ping_request(){};
+  virtual void on_ping_response(){};
+  virtual void on_device_info_request(){};
 
-  virtual void on_list_entities_request(const ListEntitiesRequest &value){};
+  virtual void on_list_entities_request(){};
 
-  virtual void on_subscribe_states_request(const SubscribeStatesRequest &value){};
+  virtual void on_subscribe_states_request(){};
 
 #ifdef USE_COVER
   virtual void on_cover_command_request(const CoverCommandRequest &value){};
@@ -61,14 +62,14 @@ class APIServerConnectionBase : public ProtoService {
 #endif
 
 #ifdef USE_API_HOMEASSISTANT_SERVICES
-  virtual void on_subscribe_homeassistant_services_request(const SubscribeHomeassistantServicesRequest &value){};
+  virtual void on_subscribe_homeassistant_services_request(){};
 #endif
 
 #ifdef USE_API_HOMEASSISTANT_ACTION_RESPONSES
   virtual void on_homeassistant_action_response(const HomeassistantActionResponse &value){};
 #endif
 #ifdef USE_API_HOMEASSISTANT_STATES
-  virtual void on_subscribe_home_assistant_states_request(const SubscribeHomeAssistantStatesRequest &value){};
+  virtual void on_subscribe_home_assistant_states_request(){};
 #endif
 
 #ifdef USE_API_HOMEASSISTANT_STATES
@@ -147,12 +148,11 @@ class APIServerConnectionBase : public ProtoService {
 #endif
 
 #ifdef USE_BLUETOOTH_PROXY
-  virtual void on_subscribe_bluetooth_connections_free_request(const SubscribeBluetoothConnectionsFreeRequest &value){};
+  virtual void on_subscribe_bluetooth_connections_free_request(){};
 #endif
 
 #ifdef USE_BLUETOOTH_PROXY
-  virtual void on_unsubscribe_bluetooth_le_advertisements_request(
-      const UnsubscribeBluetoothLEAdvertisementsRequest &value){};
+  virtual void on_unsubscribe_bluetooth_le_advertisements_request(){};
 #endif
 
 #ifdef USE_BLUETOOTH_PROXY
@@ -228,272 +228,4 @@ class APIServerConnectionBase : public ProtoService {
   void read_message(uint32_t msg_size, uint32_t msg_type, const uint8_t *msg_data) override;
 };
 
-class APIServerConnection : public APIServerConnectionBase {
- public:
-  virtual bool send_hello_response(const HelloRequest &msg) = 0;
-  virtual bool send_disconnect_response(const DisconnectRequest &msg) = 0;
-  virtual bool send_ping_response(const PingRequest &msg) = 0;
-  virtual bool send_device_info_response(const DeviceInfoRequest &msg) = 0;
-  virtual void list_entities(const ListEntitiesRequest &msg) = 0;
-  virtual void subscribe_states(const SubscribeStatesRequest &msg) = 0;
-  virtual void subscribe_logs(const SubscribeLogsRequest &msg) = 0;
-#ifdef USE_API_HOMEASSISTANT_SERVICES
-  virtual void subscribe_homeassistant_services(const SubscribeHomeassistantServicesRequest &msg) = 0;
-#endif
-#ifdef USE_API_HOMEASSISTANT_STATES
-  virtual void subscribe_home_assistant_states(const SubscribeHomeAssistantStatesRequest &msg) = 0;
-#endif
-#ifdef USE_API_USER_DEFINED_ACTIONS
-  virtual void execute_service(const ExecuteServiceRequest &msg) = 0;
-#endif
-#ifdef USE_API_NOISE
-  virtual bool send_noise_encryption_set_key_response(const NoiseEncryptionSetKeyRequest &msg) = 0;
-#endif
-#ifdef USE_BUTTON
-  virtual void button_command(const ButtonCommandRequest &msg) = 0;
-#endif
-#ifdef USE_CAMERA
-  virtual void camera_image(const CameraImageRequest &msg) = 0;
-#endif
-#ifdef USE_CLIMATE
-  virtual void climate_command(const ClimateCommandRequest &msg) = 0;
-#endif
-#ifdef USE_COVER
-  virtual void cover_command(const CoverCommandRequest &msg) = 0;
-#endif
-#ifdef USE_DATETIME_DATE
-  virtual void date_command(const DateCommandRequest &msg) = 0;
-#endif
-#ifdef USE_DATETIME_DATETIME
-  virtual void datetime_command(const DateTimeCommandRequest &msg) = 0;
-#endif
-#ifdef USE_FAN
-  virtual void fan_command(const FanCommandRequest &msg) = 0;
-#endif
-#ifdef USE_LIGHT
-  virtual void light_command(const LightCommandRequest &msg) = 0;
-#endif
-#ifdef USE_LOCK
-  virtual void lock_command(const LockCommandRequest &msg) = 0;
-#endif
-#ifdef USE_MEDIA_PLAYER
-  virtual void media_player_command(const MediaPlayerCommandRequest &msg) = 0;
-#endif
-#ifdef USE_NUMBER
-  virtual void number_command(const NumberCommandRequest &msg) = 0;
-#endif
-#ifdef USE_SELECT
-  virtual void select_command(const SelectCommandRequest &msg) = 0;
-#endif
-#ifdef USE_SIREN
-  virtual void siren_command(const SirenCommandRequest &msg) = 0;
-#endif
-#ifdef USE_SWITCH
-  virtual void switch_command(const SwitchCommandRequest &msg) = 0;
-#endif
-#ifdef USE_TEXT
-  virtual void text_command(const TextCommandRequest &msg) = 0;
-#endif
-#ifdef USE_DATETIME_TIME
-  virtual void time_command(const TimeCommandRequest &msg) = 0;
-#endif
-#ifdef USE_UPDATE
-  virtual void update_command(const UpdateCommandRequest &msg) = 0;
-#endif
-#ifdef USE_VALVE
-  virtual void valve_command(const ValveCommandRequest &msg) = 0;
-#endif
-#ifdef USE_WATER_HEATER
-  virtual void water_heater_command(const WaterHeaterCommandRequest &msg) = 0;
-#endif
-#ifdef USE_BLUETOOTH_PROXY
-  virtual void subscribe_bluetooth_le_advertisements(const SubscribeBluetoothLEAdvertisementsRequest &msg) = 0;
-#endif
-#ifdef USE_BLUETOOTH_PROXY
-  virtual void bluetooth_device_request(const BluetoothDeviceRequest &msg) = 0;
-#endif
-#ifdef USE_BLUETOOTH_PROXY
-  virtual void bluetooth_gatt_get_services(const BluetoothGATTGetServicesRequest &msg) = 0;
-#endif
-#ifdef USE_BLUETOOTH_PROXY
-  virtual void bluetooth_gatt_read(const BluetoothGATTReadRequest &msg) = 0;
-#endif
-#ifdef USE_BLUETOOTH_PROXY
-  virtual void bluetooth_gatt_write(const BluetoothGATTWriteRequest &msg) = 0;
-#endif
-#ifdef USE_BLUETOOTH_PROXY
-  virtual void bluetooth_gatt_read_descriptor(const BluetoothGATTReadDescriptorRequest &msg) = 0;
-#endif
-#ifdef USE_BLUETOOTH_PROXY
-  virtual void bluetooth_gatt_write_descriptor(const BluetoothGATTWriteDescriptorRequest &msg) = 0;
-#endif
-#ifdef USE_BLUETOOTH_PROXY
-  virtual void bluetooth_gatt_notify(const BluetoothGATTNotifyRequest &msg) = 0;
-#endif
-#ifdef USE_BLUETOOTH_PROXY
-  virtual bool send_subscribe_bluetooth_connections_free_response(
-      const SubscribeBluetoothConnectionsFreeRequest &msg) = 0;
-#endif
-#ifdef USE_BLUETOOTH_PROXY
-  virtual void unsubscribe_bluetooth_le_advertisements(const UnsubscribeBluetoothLEAdvertisementsRequest &msg) = 0;
-#endif
-#ifdef USE_BLUETOOTH_PROXY
-  virtual void bluetooth_scanner_set_mode(const BluetoothScannerSetModeRequest &msg) = 0;
-#endif
-#ifdef USE_VOICE_ASSISTANT
-  virtual void subscribe_voice_assistant(const SubscribeVoiceAssistantRequest &msg) = 0;
-#endif
-#ifdef USE_VOICE_ASSISTANT
-  virtual bool send_voice_assistant_get_configuration_response(const VoiceAssistantConfigurationRequest &msg) = 0;
-#endif
-#ifdef USE_VOICE_ASSISTANT
-  virtual void voice_assistant_set_configuration(const VoiceAssistantSetConfiguration &msg) = 0;
-#endif
-#ifdef USE_ALARM_CONTROL_PANEL
-  virtual void alarm_control_panel_command(const AlarmControlPanelCommandRequest &msg) = 0;
-#endif
-#ifdef USE_ZWAVE_PROXY
-  virtual void zwave_proxy_frame(const ZWaveProxyFrame &msg) = 0;
-#endif
-#ifdef USE_ZWAVE_PROXY
-  virtual void zwave_proxy_request(const ZWaveProxyRequest &msg) = 0;
-#endif
-#ifdef USE_IR_RF
-  virtual void infrared_rf_transmit_raw_timings(const InfraredRFTransmitRawTimingsRequest &msg) = 0;
-#endif
- protected:
-  void on_hello_request(const HelloRequest &msg) override;
-  void on_disconnect_request(const DisconnectRequest &msg) override;
-  void on_ping_request(const PingRequest &msg) override;
-  void on_device_info_request(const DeviceInfoRequest &msg) override;
-  void on_list_entities_request(const ListEntitiesRequest &msg) override;
-  void on_subscribe_states_request(const SubscribeStatesRequest &msg) override;
-  void on_subscribe_logs_request(const SubscribeLogsRequest &msg) override;
-#ifdef USE_API_HOMEASSISTANT_SERVICES
-  void on_subscribe_homeassistant_services_request(const SubscribeHomeassistantServicesRequest &msg) override;
-#endif
-#ifdef USE_API_HOMEASSISTANT_STATES
-  void on_subscribe_home_assistant_states_request(const SubscribeHomeAssistantStatesRequest &msg) override;
-#endif
-#ifdef USE_API_USER_DEFINED_ACTIONS
-  void on_execute_service_request(const ExecuteServiceRequest &msg) override;
-#endif
-#ifdef USE_API_NOISE
-  void on_noise_encryption_set_key_request(const NoiseEncryptionSetKeyRequest &msg) override;
-#endif
-#ifdef USE_BUTTON
-  void on_button_command_request(const ButtonCommandRequest &msg) override;
-#endif
-#ifdef USE_CAMERA
-  void on_camera_image_request(const CameraImageRequest &msg) override;
-#endif
-#ifdef USE_CLIMATE
-  void on_climate_command_request(const ClimateCommandRequest &msg) override;
-#endif
-#ifdef USE_COVER
-  void on_cover_command_request(const CoverCommandRequest &msg) override;
-#endif
-#ifdef USE_DATETIME_DATE
-  void on_date_command_request(const DateCommandRequest &msg) override;
-#endif
-#ifdef USE_DATETIME_DATETIME
-  void on_date_time_command_request(const DateTimeCommandRequest &msg) override;
-#endif
-#ifdef USE_FAN
-  void on_fan_command_request(const FanCommandRequest &msg) override;
-#endif
-#ifdef USE_LIGHT
-  void on_light_command_request(const LightCommandRequest &msg) override;
-#endif
-#ifdef USE_LOCK
-  void on_lock_command_request(const LockCommandRequest &msg) override;
-#endif
-#ifdef USE_MEDIA_PLAYER
-  void on_media_player_command_request(const MediaPlayerCommandRequest &msg) override;
-#endif
-#ifdef USE_NUMBER
-  void on_number_command_request(const NumberCommandRequest &msg) override;
-#endif
-#ifdef USE_SELECT
-  void on_select_command_request(const SelectCommandRequest &msg) override;
-#endif
-#ifdef USE_SIREN
-  void on_siren_command_request(const SirenCommandRequest &msg) override;
-#endif
-#ifdef USE_SWITCH
-  void on_switch_command_request(const SwitchCommandRequest &msg) override;
-#endif
-#ifdef USE_TEXT
-  void on_text_command_request(const TextCommandRequest &msg) override;
-#endif
-#ifdef USE_DATETIME_TIME
-  void on_time_command_request(const TimeCommandRequest &msg) override;
-#endif
-#ifdef USE_UPDATE
-  void on_update_command_request(const UpdateCommandRequest &msg) override;
-#endif
-#ifdef USE_VALVE
-  void on_valve_command_request(const ValveCommandRequest &msg) override;
-#endif
-#ifdef USE_WATER_HEATER
-  void on_water_heater_command_request(const WaterHeaterCommandRequest &msg) override;
-#endif
-#ifdef USE_BLUETOOTH_PROXY
-  void on_subscribe_bluetooth_le_advertisements_request(const SubscribeBluetoothLEAdvertisementsRequest &msg) override;
-#endif
-#ifdef USE_BLUETOOTH_PROXY
-  void on_bluetooth_device_request(const BluetoothDeviceRequest &msg) override;
-#endif
-#ifdef USE_BLUETOOTH_PROXY
-  void on_bluetooth_gatt_get_services_request(const BluetoothGATTGetServicesRequest &msg) override;
-#endif
-#ifdef USE_BLUETOOTH_PROXY
-  void on_bluetooth_gatt_read_request(const BluetoothGATTReadRequest &msg) override;
-#endif
-#ifdef USE_BLUETOOTH_PROXY
-  void on_bluetooth_gatt_write_request(const BluetoothGATTWriteRequest &msg) override;
-#endif
-#ifdef USE_BLUETOOTH_PROXY
-  void on_bluetooth_gatt_read_descriptor_request(const BluetoothGATTReadDescriptorRequest &msg) override;
-#endif
-#ifdef USE_BLUETOOTH_PROXY
-  void on_bluetooth_gatt_write_descriptor_request(const BluetoothGATTWriteDescriptorRequest &msg) override;
-#endif
-#ifdef USE_BLUETOOTH_PROXY
-  void on_bluetooth_gatt_notify_request(const BluetoothGATTNotifyRequest &msg) override;
-#endif
-#ifdef USE_BLUETOOTH_PROXY
-  void on_subscribe_bluetooth_connections_free_request(const SubscribeBluetoothConnectionsFreeRequest &msg) override;
-#endif
-#ifdef USE_BLUETOOTH_PROXY
-  void on_unsubscribe_bluetooth_le_advertisements_request(
-      const UnsubscribeBluetoothLEAdvertisementsRequest &msg) override;
-#endif
-#ifdef USE_BLUETOOTH_PROXY
-  void on_bluetooth_scanner_set_mode_request(const BluetoothScannerSetModeRequest &msg) override;
-#endif
-#ifdef USE_VOICE_ASSISTANT
-  void on_subscribe_voice_assistant_request(const SubscribeVoiceAssistantRequest &msg) override;
-#endif
-#ifdef USE_VOICE_ASSISTANT
-  void on_voice_assistant_configuration_request(const VoiceAssistantConfigurationRequest &msg) override;
-#endif
-#ifdef USE_VOICE_ASSISTANT
-  void on_voice_assistant_set_configuration(const VoiceAssistantSetConfiguration &msg) override;
-#endif
-#ifdef USE_ALARM_CONTROL_PANEL
-  void on_alarm_control_panel_command_request(const AlarmControlPanelCommandRequest &msg) override;
-#endif
-#ifdef USE_ZWAVE_PROXY
-  void on_z_wave_proxy_frame(const ZWaveProxyFrame &msg) override;
-#endif
-#ifdef USE_ZWAVE_PROXY
-  void on_z_wave_proxy_request(const ZWaveProxyRequest &msg) override;
-#endif
-#ifdef USE_IR_RF
-  void on_infrared_rf_transmit_raw_timings_request(const InfraredRFTransmitRawTimingsRequest &msg) override;
-#endif
-  void read_message(uint32_t msg_size, uint32_t msg_type, const uint8_t *msg_data) override;
-};
-
 }  // namespace esphome::api

esphome/components/api/homeassistant_service.h

@@ -25,7 +25,9 @@ template<typename... X> class TemplatableStringValue : public TemplatableValue<s
 
  private:
   // Helper to convert value to string - handles the case where value is already a string
-  template<typename T> static std::string value_to_string(T &&val) { return to_string(std::forward<T>(val)); }
+  template<typename T> static std::string value_to_string(T &&val) {
+    return to_string(std::forward<T>(val));  // NOLINT
+  }
 
   // Overloads for string types - needed because std::to_string doesn't support them
   static std::string value_to_string(char *val) {

esphome/components/api/list_entities.h

@@ -94,7 +94,6 @@ class ListEntitiesIterator : public ComponentIterator {
   bool on_update(update::UpdateEntity *entity) override;
 #endif
   bool on_end() override;
-  bool completed() { return this->state_ == IteratorState::NONE; }
 
  protected:
   APIConnection *client_;

esphome/components/api/proto.h

@@ -112,8 +112,12 @@ class ProtoVarInt {
     uint64_t result = buffer[0] & 0x7F;
     uint8_t bitpos = 7;
 
+    // A 64-bit varint is at most 10 bytes (ceil(64/7)). Reject overlong encodings
+    // to avoid undefined behavior from shifting uint64_t by >= 64 bits.
+    uint32_t max_len = std::min(len, uint32_t(10));
+
     // Start from the second byte since we've already processed the first
-    for (uint32_t i = 1; i < len; i++) {
+    for (uint32_t i = 1; i < max_len; i++) {
       uint8_t val = buffer[i];
       result |= uint64_t(val & 0x7F) << uint64_t(bitpos);
       bitpos += 7;

esphome/components/api/subscribe_state.h

@@ -88,7 +88,6 @@ class InitialStateIterator : public ComponentIterator {
 #ifdef USE_UPDATE
   bool on_update(update::UpdateEntity *entity) override;
 #endif
-  bool completed() { return this->state_ == IteratorState::NONE; }
 
  protected:
   APIConnection *client_;

esphome/components/aqi/aqi_calculator.h

@@ -1,5 +1,6 @@
 #pragma once
 
+#include <algorithm>
 #include <cmath>
 #include <limits>
 #include "abstract_aqi_calculator.h"
@@ -14,7 +15,11 @@ class AQICalculator : public AbstractAQICalculator {
     float pm2_5_index = calculate_index(pm2_5_value, PM2_5_GRID);
     float pm10_0_index = calculate_index(pm10_0_value, PM10_0_GRID);
 
-    return static_cast<uint16_t>(std::round((pm2_5_index < pm10_0_index) ? pm10_0_index : pm2_5_index));
+    float aqi = std::max(pm2_5_index, pm10_0_index);
+    if (aqi < 0.0f) {
+      aqi = 0.0f;
+    }
+    return static_cast<uint16_t>(std::lround(aqi));
   }
 
  protected:
@@ -22,13 +27,27 @@ class AQICalculator : public AbstractAQICalculator {
 
   static constexpr int INDEX_GRID[NUM_LEVELS][2] = {{0, 50}, {51, 100}, {101, 150}, {151, 200}, {201, 300}, {301, 500}};
 
-  static constexpr float PM2_5_GRID[NUM_LEVELS][2] = {{0.0f, 9.0f},     {9.1f, 35.4f},
-                                                      {35.5f, 55.4f},   {55.5f, 125.4f},
-                                                      {125.5f, 225.4f}, {225.5f, std::numeric_limits<float>::max()}};
+  static constexpr float PM2_5_GRID[NUM_LEVELS][2] = {
+      // clang-format off
+      {0.0f, 9.1f},
+      {9.1f, 35.5f},
+      {35.5f, 55.5f},
+      {55.5f, 125.5f},
+      {125.5f, 225.5f},
+      {225.5f, std::numeric_limits<float>::max()}
+      // clang-format on
+  };
 
-  static constexpr float PM10_0_GRID[NUM_LEVELS][2] = {{0.0f, 54.0f},    {55.0f, 154.0f},
-                                                       {155.0f, 254.0f}, {255.0f, 354.0f},
-                                                       {355.0f, 424.0f}, {425.0f, std::numeric_limits<float>::max()}};
+  static constexpr float PM10_0_GRID[NUM_LEVELS][2] = {
+      // clang-format off
+      {0.0f, 55.0f},
+      {55.0f, 155.0f},
+      {155.0f, 255.0f},
+      {255.0f, 355.0f},
+      {355.0f, 425.0f},
+      {425.0f, std::numeric_limits<float>::max()}
+      // clang-format on
+  };
 
   static float calculate_index(float value, const float array[NUM_LEVELS][2]) {
     int grid_index = get_grid_index(value, array);
@@ -45,7 +64,10 @@ class AQICalculator : public AbstractAQICalculator {
 
   static int get_grid_index(float value, const float array[NUM_LEVELS][2]) {
     for (int i = 0; i < NUM_LEVELS; i++) {
-      if (value >= array[i][0] && value <= array[i][1]) {
+      const bool in_range =
+          (value >= array[i][0]) && ((i == NUM_LEVELS - 1) ? (value <= array[i][1])   // last bucket inclusive
+                                                           : (value < array[i][1]));  // others exclusive on hi
+      if (in_range) {
         return i;
       }
     }

esphome/components/aqi/caqi_calculator.h

@@ -1,5 +1,6 @@
 #pragma once
 
+#include <algorithm>
 #include <cmath>
 #include <limits>
 #include "abstract_aqi_calculator.h"
@@ -12,7 +13,11 @@ class CAQICalculator : public AbstractAQICalculator {
     float pm2_5_index = calculate_index(pm2_5_value, PM2_5_GRID);
     float pm10_0_index = calculate_index(pm10_0_value, PM10_0_GRID);
 
-    return static_cast<uint16_t>(std::round((pm2_5_index < pm10_0_index) ? pm10_0_index : pm2_5_index));
+    float aqi = std::max(pm2_5_index, pm10_0_index);
+    if (aqi < 0.0f) {
+      aqi = 0.0f;
+    }
+    return static_cast<uint16_t>(std::lround(aqi));
   }
 
  protected:
@@ -21,10 +26,24 @@ class CAQICalculator : public AbstractAQICalculator {
   static constexpr int INDEX_GRID[NUM_LEVELS][2] = {{0, 25}, {26, 50}, {51, 75}, {76, 100}, {101, 400}};
 
   static constexpr float PM2_5_GRID[NUM_LEVELS][2] = {
-      {0.0f, 15.0f}, {15.1f, 30.0f}, {30.1f, 55.0f}, {55.1f, 110.0f}, {110.1f, std::numeric_limits<float>::max()}};
+      // clang-format off
+      {0.0f, 15.1f},
+      {15.1f, 30.1f},
+      {30.1f, 55.1f},
+      {55.1f, 110.1f},
+      {110.1f, std::numeric_limits<float>::max()}
+      // clang-format on
+  };
 
   static constexpr float PM10_0_GRID[NUM_LEVELS][2] = {
-      {0.0f, 25.0f}, {25.1f, 50.0f}, {50.1f, 90.0f}, {90.1f, 180.0f}, {180.1f, std::numeric_limits<float>::max()}};
+      // clang-format off
+      {0.0f, 25.1f},
+      {25.1f, 50.1f},
+      {50.1f, 90.1f},
+      {90.1f, 180.1f},
+      {180.1f, std::numeric_limits<float>::max()}
+      // clang-format on
+  };
 
   static float calculate_index(float value, const float array[NUM_LEVELS][2]) {
     int grid_index = get_grid_index(value, array);
@@ -42,7 +61,10 @@ class CAQICalculator : public AbstractAQICalculator {
 
   static int get_grid_index(float value, const float array[NUM_LEVELS][2]) {
     for (int i = 0; i < NUM_LEVELS; i++) {
-      if (value >= array[i][0] && value <= array[i][1]) {
+      const bool in_range =
+          (value >= array[i][0]) && ((i == NUM_LEVELS - 1) ? (value <= array[i][1])   // last bucket inclusive
+                                                           : (value < array[i][1]));  // others exclusive on hi
+      if (in_range) {
         return i;
       }
     }

esphome/components/binary_sensor/automation.cpp

@@ -5,6 +5,14 @@ namespace esphome::binary_sensor {
 
 static const char *const TAG = "binary_sensor.automation";
 
+// MultiClickTrigger timeout IDs.
+// MultiClickTrigger is its own Component instance, so the scheduler scopes
+// IDs by component pointer — no risk of collisions between instances.
+constexpr uint32_t MULTICLICK_TRIGGER_ID = 0;
+constexpr uint32_t MULTICLICK_COOLDOWN_ID = 1;
+constexpr uint32_t MULTICLICK_IS_VALID_ID = 2;
+constexpr uint32_t MULTICLICK_IS_NOT_VALID_ID = 3;
+
 void MultiClickTrigger::on_state_(bool state) {
   // Handle duplicate events
   if (state == this->last_state_) {
@@ -27,7 +35,7 @@ void MultiClickTrigger::on_state_(bool state) {
                evt.min_length, evt.max_length);
       this->at_index_ = 1;
       if (this->timing_.size() == 1 && evt.max_length == 4294967294UL) {
-        this->set_timeout("trigger", evt.min_length, [this]() { this->trigger_(); });
+        this->set_timeout(MULTICLICK_TRIGGER_ID, evt.min_length, [this]() { this->trigger_(); });
       } else {
         this->schedule_is_valid_(evt.min_length);
         this->schedule_is_not_valid_(evt.max_length);
@@ -57,13 +65,13 @@ void MultiClickTrigger::on_state_(bool state) {
     this->schedule_is_not_valid_(evt.max_length);
   } else if (*this->at_index_ + 1 != this->timing_.size()) {
     ESP_LOGV(TAG, "B i=%zu min=%" PRIu32, *this->at_index_, evt.min_length);  // NOLINT
-    this->cancel_timeout("is_not_valid");
+    this->cancel_timeout(MULTICLICK_IS_NOT_VALID_ID);
     this->schedule_is_valid_(evt.min_length);
   } else {
     ESP_LOGV(TAG, "C i=%zu min=%" PRIu32, *this->at_index_, evt.min_length);  // NOLINT
     this->is_valid_ = false;
-    this->cancel_timeout("is_not_valid");
-    this->set_timeout("trigger", evt.min_length, [this]() { this->trigger_(); });
+    this->cancel_timeout(MULTICLICK_IS_NOT_VALID_ID);
+    this->set_timeout(MULTICLICK_TRIGGER_ID, evt.min_length, [this]() { this->trigger_(); });
   }
 
   *this->at_index_ = *this->at_index_ + 1;
@@ -71,14 +79,14 @@ void MultiClickTrigger::on_state_(bool state) {
 void MultiClickTrigger::schedule_cooldown_() {
   ESP_LOGV(TAG, "Multi Click: Invalid length of press, starting cooldown of %" PRIu32 " ms", this->invalid_cooldown_);
   this->is_in_cooldown_ = true;
-  this->set_timeout("cooldown", this->invalid_cooldown_, [this]() {
+  this->set_timeout(MULTICLICK_COOLDOWN_ID, this->invalid_cooldown_, [this]() {
     ESP_LOGV(TAG, "Multi Click: Cooldown ended, matching is now enabled again.");
     this->is_in_cooldown_ = false;
   });
   this->at_index_.reset();
-  this->cancel_timeout("trigger");
-  this->cancel_timeout("is_valid");
-  this->cancel_timeout("is_not_valid");
+  this->cancel_timeout(MULTICLICK_TRIGGER_ID);
+  this->cancel_timeout(MULTICLICK_IS_VALID_ID);
+  this->cancel_timeout(MULTICLICK_IS_NOT_VALID_ID);
 }
 void MultiClickTrigger::schedule_is_valid_(uint32_t min_length) {
   if (min_length == 0) {
@@ -86,13 +94,13 @@ void MultiClickTrigger::schedule_is_valid_(uint32_t min_length) {
     return;
   }
   this->is_valid_ = false;
-  this->set_timeout("is_valid", min_length, [this]() {
+  this->set_timeout(MULTICLICK_IS_VALID_ID, min_length, [this]() {
     ESP_LOGV(TAG, "Multi Click: You can now %s the button.", this->parent_->state ? "RELEASE" : "PRESS");
     this->is_valid_ = true;
   });
 }
 void MultiClickTrigger::schedule_is_not_valid_(uint32_t max_length) {
-  this->set_timeout("is_not_valid", max_length, [this]() {
+  this->set_timeout(MULTICLICK_IS_NOT_VALID_ID, max_length, [this]() {
     ESP_LOGV(TAG, "Multi Click: You waited too long to %s.", this->parent_->state ? "RELEASE" : "PRESS");
     this->is_valid_ = false;
     this->schedule_cooldown_();
@@ -106,9 +114,9 @@ void MultiClickTrigger::cancel() {
 void MultiClickTrigger::trigger_() {
   ESP_LOGV(TAG, "Multi Click: Hooray, multi click is valid. Triggering!");
   this->at_index_.reset();
-  this->cancel_timeout("trigger");
-  this->cancel_timeout("is_valid");
-  this->cancel_timeout("is_not_valid");
+  this->cancel_timeout(MULTICLICK_TRIGGER_ID);
+  this->cancel_timeout(MULTICLICK_IS_VALID_ID);
+  this->cancel_timeout(MULTICLICK_IS_NOT_VALID_ID);
   this->trigger();
 }
 

esphome/components/binary_sensor/filter.cpp

@@ -6,6 +6,14 @@ namespace esphome::binary_sensor {
 
 static const char *const TAG = "sensor.filter";
 
+// Timeout IDs for filter classes.
+// Each filter is its own Component instance, so the scheduler scopes
+// IDs by component pointer — no risk of collisions between instances.
+constexpr uint32_t FILTER_TIMEOUT_ID = 0;
+// AutorepeatFilter needs two distinct IDs (both timeouts on the same component)
+constexpr uint32_t AUTOREPEAT_TIMING_ID = 0;
+constexpr uint32_t AUTOREPEAT_ON_OFF_ID = 1;
+
 void Filter::output(bool value) {
   if (this->next_ == nullptr) {
     this->parent_->send_state_internal(value);
@@ -23,16 +31,16 @@ void Filter::input(bool value) {
 }
 
 void TimeoutFilter::input(bool value) {
-  this->set_timeout("timeout", this->timeout_delay_.value(), [this]() { this->parent_->invalidate_state(); });
+  this->set_timeout(FILTER_TIMEOUT_ID, this->timeout_delay_.value(), [this]() { this->parent_->invalidate_state(); });
   // we do not de-dup here otherwise changes from invalid to valid state will not be output
   this->output(value);
 }
 
 optional<bool> DelayedOnOffFilter::new_value(bool value) {
   if (value) {
-    this->set_timeout("ON_OFF", this->on_delay_.value(), [this]() { this->output(true); });
+    this->set_timeout(FILTER_TIMEOUT_ID, this->on_delay_.value(), [this]() { this->output(true); });
   } else {
-    this->set_timeout("ON_OFF", this->off_delay_.value(), [this]() { this->output(false); });
+    this->set_timeout(FILTER_TIMEOUT_ID, this->off_delay_.value(), [this]() { this->output(false); });
   }
   return {};
 }
@@ -41,10 +49,10 @@ float DelayedOnOffFilter::get_setup_priority() const { return setup_priority::HA
 
 optional<bool> DelayedOnFilter::new_value(bool value) {
   if (value) {
-    this->set_timeout("ON", this->delay_.value(), [this]() { this->output(true); });
+    this->set_timeout(FILTER_TIMEOUT_ID, this->delay_.value(), [this]() { this->output(true); });
     return {};
   } else {
-    this->cancel_timeout("ON");
+    this->cancel_timeout(FILTER_TIMEOUT_ID);
     return false;
   }
 }
@@ -53,10 +61,10 @@ float DelayedOnFilter::get_setup_priority() const { return setup_priority::HARDW
 
 optional<bool> DelayedOffFilter::new_value(bool value) {
   if (!value) {
-    this->set_timeout("OFF", this->delay_.value(), [this]() { this->output(false); });
+    this->set_timeout(FILTER_TIMEOUT_ID, this->delay_.value(), [this]() { this->output(false); });
     return {};
   } else {
-    this->cancel_timeout("OFF");
+    this->cancel_timeout(FILTER_TIMEOUT_ID);
     return true;
   }
 }
@@ -76,8 +84,8 @@ optional<bool> AutorepeatFilter::new_value(bool value) {
     this->next_timing_();
     return true;
   } else {
-    this->cancel_timeout("TIMING");
-    this->cancel_timeout("ON_OFF");
+    this->cancel_timeout(AUTOREPEAT_TIMING_ID);
+    this->cancel_timeout(AUTOREPEAT_ON_OFF_ID);
     this->active_timing_ = 0;
     return false;
   }
@@ -88,8 +96,10 @@ void AutorepeatFilter::next_timing_() {
   // 1st time: starts waiting the first delay
   // 2nd time: starts waiting the second delay and starts toggling with the first time_off / _on
   // last time: no delay to start but have to bump the index to reflect the last
-  if (this->active_timing_ < this->timings_.size())
-    this->set_timeout("TIMING", this->timings_[this->active_timing_].delay, [this]() { this->next_timing_(); });
+  if (this->active_timing_ < this->timings_.size()) {
+    this->set_timeout(AUTOREPEAT_TIMING_ID, this->timings_[this->active_timing_].delay,
+                      [this]() { this->next_timing_(); });
+  }
 
   if (this->active_timing_ <= this->timings_.size()) {
     this->active_timing_++;
@@ -104,7 +114,8 @@ void AutorepeatFilter::next_timing_() {
 void AutorepeatFilter::next_value_(bool val) {
   const AutorepeatFilterTiming &timing = this->timings_[this->active_timing_ - 2];
   this->output(val);  // This is at least the second one so not initial
-  this->set_timeout("ON_OFF", val ? timing.time_on : timing.time_off, [this, val]() { this->next_value_(!val); });
+  this->set_timeout(AUTOREPEAT_ON_OFF_ID, val ? timing.time_on : timing.time_off,
+                    [this, val]() { this->next_value_(!val); });
 }
 
 float AutorepeatFilter::get_setup_priority() const { return setup_priority::HARDWARE; }
@@ -115,7 +126,7 @@ optional<bool> LambdaFilter::new_value(bool value) { return this->f_(value); }
 
 optional<bool> SettleFilter::new_value(bool value) {
   if (!this->steady_) {
-    this->set_timeout("SETTLE", this->delay_.value(), [this, value]() {
+    this->set_timeout(FILTER_TIMEOUT_ID, this->delay_.value(), [this, value]() {
       this->steady_ = true;
       this->output(value);
     });
@@ -123,7 +134,7 @@ optional<bool> SettleFilter::new_value(bool value) {
   } else {
     this->steady_ = false;
     this->output(value);
-    this->set_timeout("SETTLE", this->delay_.value(), [this]() { this->steady_ = true; });
+    this->set_timeout(FILTER_TIMEOUT_ID, this->delay_.value(), [this]() { this->steady_ = true; });
     return value;
   }
 }

esphome/components/bl0942/bl0942.cpp

@@ -46,16 +46,16 @@ static const uint32_t PKT_TIMEOUT_MS = 200;
 
 void BL0942::loop() {
   DataPacket buffer;
-  int avail = this->available();
+  size_t avail = this->available();
 
   if (!avail) {
     return;
   }
-  if (static_cast<size_t>(avail) < sizeof(buffer)) {
+  if (avail < sizeof(buffer)) {
     if (!this->rx_start_) {
       this->rx_start_ = millis();
     } else if (millis() > this->rx_start_ + PKT_TIMEOUT_MS) {
-      ESP_LOGW(TAG, "Junk on wire. Throwing away partial message (%d bytes)", avail);
+      ESP_LOGW(TAG, "Junk on wire. Throwing away partial message (%zu bytes)", avail);
       this->read_array((uint8_t *) &buffer, avail);
       this->rx_start_ = 0;
     }

esphome/components/cse7766/cse7766.cpp

@@ -7,7 +7,6 @@ namespace esphome {
 namespace cse7766 {
 
 static const char *const TAG = "cse7766";
-static constexpr size_t CSE7766_RAW_DATA_SIZE = 24;
 
 void CSE7766Component::loop() {
   const uint32_t now = App.get_loop_component_start_time();
@@ -16,25 +15,39 @@ void CSE7766Component::loop() {
     this->raw_data_index_ = 0;
   }
 
-  if (this->available() == 0) {
+  // Early return prevents updating last_transmission_ when no data is available.
+  size_t avail = this->available();
+  if (avail == 0) {
     return;
   }
 
   this->last_transmission_ = now;
-  while (this->available() != 0) {
-    this->read_byte(&this->raw_data_[this->raw_data_index_]);
-    if (!this->check_byte_()) {
-      this->raw_data_index_ = 0;
-      this->status_set_warning();
-      continue;
-    }
 
-    if (this->raw_data_index_ == 23) {
-      this->parse_data_();
-      this->status_clear_warning();
+  // Read all available bytes in batches to reduce UART call overhead.
+  // At 4800 baud (~480 bytes/sec) with ~122 Hz loop rate, typically ~4 bytes per call.
+  uint8_t buf[CSE7766_RAW_DATA_SIZE];
+  while (avail > 0) {
+    size_t to_read = std::min(avail, sizeof(buf));
+    if (!this->read_array(buf, to_read)) {
+      break;
     }
+    avail -= to_read;
 
-    this->raw_data_index_ = (this->raw_data_index_ + 1) % 24;
+    for (size_t i = 0; i < to_read; i++) {
+      this->raw_data_[this->raw_data_index_] = buf[i];
+      if (!this->check_byte_()) {
+        this->raw_data_index_ = 0;
+        this->status_set_warning();
+        continue;
+      }
+
+      if (this->raw_data_index_ == CSE7766_RAW_DATA_SIZE - 1) {
+        this->parse_data_();
+        this->status_clear_warning();
+      }
+
+      this->raw_data_index_ = (this->raw_data_index_ + 1) % CSE7766_RAW_DATA_SIZE;
+    }
   }
 }
 
@@ -53,14 +66,15 @@ bool CSE7766Component::check_byte_() {
     return true;
   }
 
-  if (index == 23) {
+  if (index == CSE7766_RAW_DATA_SIZE - 1) {
     uint8_t checksum = 0;
-    for (uint8_t i = 2; i < 23; i++) {
+    for (uint8_t i = 2; i < CSE7766_RAW_DATA_SIZE - 1; i++) {
       checksum += this->raw_data_[i];
     }
 
-    if (checksum != this->raw_data_[23]) {
-      ESP_LOGW(TAG, "Invalid checksum from CSE7766: 0x%02X != 0x%02X", checksum, this->raw_data_[23]);
+    if (checksum != this->raw_data_[CSE7766_RAW_DATA_SIZE - 1]) {
+      ESP_LOGW(TAG, "Invalid checksum from CSE7766: 0x%02X != 0x%02X", checksum,
+               this->raw_data_[CSE7766_RAW_DATA_SIZE - 1]);
       return false;
     }
     return true;

esphome/components/cse7766/cse7766.h

@@ -8,6 +8,8 @@
 namespace esphome {
 namespace cse7766 {
 
+static constexpr size_t CSE7766_RAW_DATA_SIZE = 24;
+
 class CSE7766Component : public Component, public uart::UARTDevice {
  public:
   void set_voltage_sensor(sensor::Sensor *voltage_sensor) { voltage_sensor_ = voltage_sensor; }
@@ -33,7 +35,7 @@ class CSE7766Component : public Component, public uart::UARTDevice {
                          this->raw_data_[start_index + 2]);
   }
 
-  uint8_t raw_data_[24];
+  uint8_t raw_data_[CSE7766_RAW_DATA_SIZE];
   uint8_t raw_data_index_{0};
   uint32_t last_transmission_{0};
   sensor::Sensor *voltage_sensor_{nullptr};

esphome/components/dfplayer/dfplayer.cpp

@@ -1,4 +1,5 @@
 #include "dfplayer.h"
+#include "esphome/core/helpers.h"
 #include "esphome/core/log.h"
 
 namespace esphome {
@@ -131,140 +132,149 @@ void DFPlayer::send_cmd_(uint8_t cmd, uint16_t argument) {
 }
 
 void DFPlayer::loop() {
-  // Read message
-  while (this->available()) {
-    uint8_t byte;
-    this->read_byte(&byte);
-
-    if (this->read_pos_ == DFPLAYER_READ_BUFFER_LENGTH)
-      this->read_pos_ = 0;
-
-    switch (this->read_pos_) {
-      case 0:  // Start mark
-        if (byte != 0x7E)
-          continue;
-        break;
-      case 1:  // Version
-        if (byte != 0xFF) {
-          ESP_LOGW(TAG, "Expected Version 0xFF, got %#02x", byte);
-          this->read_pos_ = 0;
-          continue;
-        }
-        break;
-      case 2:  // Buffer length
-        if (byte != 0x06) {
-          ESP_LOGW(TAG, "Expected Buffer length 0x06, got %#02x", byte);
-          this->read_pos_ = 0;
-          continue;
-        }
-        break;
-      case 9:  // End byte
-#ifdef ESPHOME_LOG_HAS_VERY_VERBOSE
-        char byte_sequence[100];
-        byte_sequence[0] = '\0';
-        for (size_t i = 0; i < this->read_pos_ + 1; ++i) {
-          snprintf(byte_sequence + strlen(byte_sequence), sizeof(byte_sequence) - strlen(byte_sequence), "%02X ",
-                   this->read_buffer_[i]);
-        }
-        ESP_LOGVV(TAG, "Received byte sequence: %s", byte_sequence);
-#endif
-        if (byte != 0xEF) {
-          ESP_LOGW(TAG, "Expected end byte 0xEF, got %#02x", byte);
-          this->read_pos_ = 0;
-          continue;
-        }
-        // Parse valid received command
-        uint8_t cmd = this->read_buffer_[3];
-        uint16_t argument = (this->read_buffer_[5] << 8) | this->read_buffer_[6];
-
-        ESP_LOGV(TAG, "Received message cmd: %#02x arg %#04x", cmd, argument);
-
-        switch (cmd) {
-          case 0x3A:
-            if (argument == 1) {
-              ESP_LOGI(TAG, "USB loaded");
-            } else if (argument == 2) {
-              ESP_LOGI(TAG, "TF Card loaded");
-            }
-            break;
-          case 0x3B:
-            if (argument == 1) {
-              ESP_LOGI(TAG, "USB unloaded");
-            } else if (argument == 2) {
-              ESP_LOGI(TAG, "TF Card unloaded");
-            }
-            break;
-          case 0x3F:
-            if (argument == 1) {
-              ESP_LOGI(TAG, "USB available");
-            } else if (argument == 2) {
-              ESP_LOGI(TAG, "TF Card available");
-            } else if (argument == 3) {
-              ESP_LOGI(TAG, "USB, TF Card available");
-            }
-            break;
-          case 0x40:
-            ESP_LOGV(TAG, "Nack");
-            this->ack_set_is_playing_ = false;
-            this->ack_reset_is_playing_ = false;
-            switch (argument) {
-              case 0x01:
-                ESP_LOGE(TAG, "Module is busy or uninitialized");
-                break;
-              case 0x02:
-                ESP_LOGE(TAG, "Module is in sleep mode");
-                break;
-              case 0x03:
-                ESP_LOGE(TAG, "Serial receive error");
-                break;
-              case 0x04:
-                ESP_LOGE(TAG, "Checksum incorrect");
-                break;
-              case 0x05:
-                ESP_LOGE(TAG, "Specified track is out of current track scope");
-                this->is_playing_ = false;
-                break;
-              case 0x06:
-                ESP_LOGE(TAG, "Specified track is not found");
-                this->is_playing_ = false;
-                break;
-              case 0x07:
-                ESP_LOGE(TAG, "Insertion error (an inserting operation only can be done when a track is being played)");
-                break;
-              case 0x08:
-                ESP_LOGE(TAG, "SD card reading failed (SD card pulled out or damaged)");
-                break;
-              case 0x09:
-                ESP_LOGE(TAG, "Entered into sleep mode");
-                this->is_playing_ = false;
-                break;
-            }
-            break;
-          case 0x41:
-            ESP_LOGV(TAG, "Ack ok");
-            this->is_playing_ |= this->ack_set_is_playing_;
-            this->is_playing_ &= !this->ack_reset_is_playing_;
-            this->ack_set_is_playing_ = false;
-            this->ack_reset_is_playing_ = false;
-            break;
-          case 0x3C:
-            ESP_LOGV(TAG, "Playback finished (USB drive)");
-            this->is_playing_ = false;
-            this->on_finished_playback_callback_.call();
-          case 0x3D:
-            ESP_LOGV(TAG, "Playback finished (SD card)");
-            this->is_playing_ = false;
-            this->on_finished_playback_callback_.call();
-            break;
-          default:
-            ESP_LOGE(TAG, "Received unknown cmd %#02x arg %#04x", cmd, argument);
-        }
-        this->sent_cmd_ = 0;
-        this->read_pos_ = 0;
-        continue;
+  // Read all available bytes in batches to reduce UART call overhead.
+  size_t avail = this->available();
+  uint8_t buf[64];
+  while (avail > 0) {
+    size_t to_read = std::min(avail, sizeof(buf));
+    if (!this->read_array(buf, to_read)) {
+      break;
+    }
+    avail -= to_read;
+    for (size_t bi = 0; bi < to_read; bi++) {
+      uint8_t byte = buf[bi];
+
+      if (this->read_pos_ == DFPLAYER_READ_BUFFER_LENGTH)
+        this->read_pos_ = 0;
+
+      switch (this->read_pos_) {
+        case 0:  // Start mark
+          if (byte != 0x7E)
+            continue;
+          break;
+        case 1:  // Version
+          if (byte != 0xFF) {
+            ESP_LOGW(TAG, "Expected Version 0xFF, got %#02x", byte);
+            this->read_pos_ = 0;
+            continue;
+          }
+          break;
+        case 2:  // Buffer length
+          if (byte != 0x06) {
+            ESP_LOGW(TAG, "Expected Buffer length 0x06, got %#02x", byte);
+            this->read_pos_ = 0;
+            continue;
+          }
+          break;
+        case 9:  // End byte
+#ifdef ESPHOME_LOG_HAS_VERY_VERBOSE
+          char byte_sequence[100];
+          byte_sequence[0] = '\0';
+          for (size_t i = 0; i < this->read_pos_ + 1; ++i) {
+            snprintf(byte_sequence + strlen(byte_sequence), sizeof(byte_sequence) - strlen(byte_sequence), "%02X ",
+                     this->read_buffer_[i]);
+          }
+          ESP_LOGVV(TAG, "Received byte sequence: %s", byte_sequence);
+#endif
+          if (byte != 0xEF) {
+            ESP_LOGW(TAG, "Expected end byte 0xEF, got %#02x", byte);
+            this->read_pos_ = 0;
+            continue;
+          }
+          // Parse valid received command
+          uint8_t cmd = this->read_buffer_[3];
+          uint16_t argument = (this->read_buffer_[5] << 8) | this->read_buffer_[6];
+
+          ESP_LOGV(TAG, "Received message cmd: %#02x arg %#04x", cmd, argument);
+
+          switch (cmd) {
+            case 0x3A:
+              if (argument == 1) {
+                ESP_LOGI(TAG, "USB loaded");
+              } else if (argument == 2) {
+                ESP_LOGI(TAG, "TF Card loaded");
+              }
+              break;
+            case 0x3B:
+              if (argument == 1) {
+                ESP_LOGI(TAG, "USB unloaded");
+              } else if (argument == 2) {
+                ESP_LOGI(TAG, "TF Card unloaded");
+              }
+              break;
+            case 0x3F:
+              if (argument == 1) {
+                ESP_LOGI(TAG, "USB available");
+              } else if (argument == 2) {
+                ESP_LOGI(TAG, "TF Card available");
+              } else if (argument == 3) {
+                ESP_LOGI(TAG, "USB, TF Card available");
+              }
+              break;
+            case 0x40:
+              ESP_LOGV(TAG, "Nack");
+              this->ack_set_is_playing_ = false;
+              this->ack_reset_is_playing_ = false;
+              switch (argument) {
+                case 0x01:
+                  ESP_LOGE(TAG, "Module is busy or uninitialized");
+                  break;
+                case 0x02:
+                  ESP_LOGE(TAG, "Module is in sleep mode");
+                  break;
+                case 0x03:
+                  ESP_LOGE(TAG, "Serial receive error");
+                  break;
+                case 0x04:
+                  ESP_LOGE(TAG, "Checksum incorrect");
+                  break;
+                case 0x05:
+                  ESP_LOGE(TAG, "Specified track is out of current track scope");
+                  this->is_playing_ = false;
+                  break;
+                case 0x06:
+                  ESP_LOGE(TAG, "Specified track is not found");
+                  this->is_playing_ = false;
+                  break;
+                case 0x07:
+                  ESP_LOGE(TAG,
+                           "Insertion error (an inserting operation only can be done when a track is being played)");
+                  break;
+                case 0x08:
+                  ESP_LOGE(TAG, "SD card reading failed (SD card pulled out or damaged)");
+                  break;
+                case 0x09:
+                  ESP_LOGE(TAG, "Entered into sleep mode");
+                  this->is_playing_ = false;
+                  break;
+              }
+              break;
+            case 0x41:
+              ESP_LOGV(TAG, "Ack ok");
+              this->is_playing_ |= this->ack_set_is_playing_;
+              this->is_playing_ &= !this->ack_reset_is_playing_;
+              this->ack_set_is_playing_ = false;
+              this->ack_reset_is_playing_ = false;
+              break;
+            case 0x3C:
+              ESP_LOGV(TAG, "Playback finished (USB drive)");
+              this->is_playing_ = false;
+              this->on_finished_playback_callback_.call();
+            case 0x3D:
+              ESP_LOGV(TAG, "Playback finished (SD card)");
+              this->is_playing_ = false;
+              this->on_finished_playback_callback_.call();
+              break;
+            default:
+              ESP_LOGE(TAG, "Received unknown cmd %#02x arg %#04x", cmd, argument);
+          }
+          this->sent_cmd_ = 0;
+          this->read_pos_ = 0;
+          continue;
+      }
+      this->read_buffer_[this->read_pos_] = byte;
+      this->read_pos_++;
     }
-    this->read_buffer_[this->read_pos_] = byte;
-    this->read_pos_++;
   }
 }
 void DFPlayer::dump_config() {

esphome/components/dlms_meter/dlms_meter.cpp

@@ -28,15 +28,28 @@ void DlmsMeterComponent::dump_config() {
 
 void DlmsMeterComponent::loop() {
   // Read while data is available, netznoe uses two frames so allow 2x max frame length
-  while (this->available()) {
-    if (this->receive_buffer_.size() >= MBUS_MAX_FRAME_LENGTH * 2) {
+  size_t avail = this->available();
+  if (avail > 0) {
+    size_t remaining = MBUS_MAX_FRAME_LENGTH * 2 - this->receive_buffer_.size();
+    if (remaining == 0) {
       ESP_LOGW(TAG, "Receive buffer full, dropping remaining bytes");
-      break;
+    } else {
+      // Read all available bytes in batches to reduce UART call overhead.
+      // Cap reads to remaining buffer capacity.
+      if (avail > remaining) {
+        avail = remaining;
+      }
+      uint8_t buf[64];
+      while (avail > 0) {
+        size_t to_read = std::min(avail, sizeof(buf));
+        if (!this->read_array(buf, to_read)) {
+          break;
+        }
+        avail -= to_read;
+        this->receive_buffer_.insert(this->receive_buffer_.end(), buf, buf + to_read);
+        this->last_read_ = millis();
+      }
     }
-    uint8_t c;
-    this->read_byte(&c);
-    this->receive_buffer_.push_back(c);
-    this->last_read_ = millis();
   }
 
   if (!this->receive_buffer_.empty() && millis() - this->last_read_ > this->read_timeout_) {

esphome/components/dsmr/__init__.py

@@ -66,7 +66,7 @@ async def to_code(config):
     cg.add_build_flag("-DDSMR_WATER_MBUS_ID=" + str(config[CONF_WATER_MBUS_ID]))
 
     # DSMR Parser
-    cg.add_library("esphome/dsmr_parser", "1.0.0")
+    cg.add_library("esphome/dsmr_parser", "1.1.0")
 
     # Crypto
     cg.add_library("polargoose/Crypto-no-arduino", "0.4.0")

esphome/components/dsmr/dsmr.cpp

@@ -40,9 +40,7 @@ bool Dsmr::ready_to_request_data_() {
       this->start_requesting_data_();
     }
     if (!this->requesting_data_) {
-      while (this->available()) {
-        this->read();
-      }
+      this->drain_rx_buffer_();
     }
   }
   return this->requesting_data_;
@@ -115,138 +113,169 @@ void Dsmr::stop_requesting_data_() {
     } else {
       ESP_LOGV(TAG, "Stop reading data from P1 port");
     }
-    while (this->available()) {
-      this->read();
-    }
+    this->drain_rx_buffer_();
     this->requesting_data_ = false;
   }
 }
 
+void Dsmr::drain_rx_buffer_() {
+  uint8_t buf[64];
+  size_t avail;
+  while ((avail = this->available()) > 0) {
+    if (!this->read_array(buf, std::min(avail, sizeof(buf)))) {
+      break;
+    }
+  }
+}
+
 void Dsmr::reset_telegram_() {
   this->header_found_ = false;
   this->footer_found_ = false;
   this->bytes_read_ = 0;
   this->crypt_bytes_read_ = 0;
   this->crypt_telegram_len_ = 0;
-  this->last_read_time_ = 0;
 }
 
 void Dsmr::receive_telegram_() {
   while (this->available_within_timeout_()) {
-    const char c = this->read();
+    // Read all available bytes in batches to reduce UART call overhead.
+    uint8_t buf[64];
+    size_t avail = this->available();
+    while (avail > 0) {
+      size_t to_read = std::min(avail, sizeof(buf));
+      if (!this->read_array(buf, to_read))
+        return;
+      avail -= to_read;
 
-    // Find a new telegram header, i.e. forward slash.
-    if (c == '/') {
-      ESP_LOGV(TAG, "Header of telegram found");
-      this->reset_telegram_();
-      this->header_found_ = true;
-    }
-    if (!this->header_found_)
-      continue;
+      for (size_t i = 0; i < to_read; i++) {
+        const char c = static_cast<char>(buf[i]);
 
-    // Check for buffer overflow.
-    if (this->bytes_read_ >= this->max_telegram_len_) {
-      this->reset_telegram_();
-      ESP_LOGE(TAG, "Error: telegram larger than buffer (%d bytes)", this->max_telegram_len_);
-      return;
-    }
+        // Find a new telegram header, i.e. forward slash.
+        if (c == '/') {
+          ESP_LOGV(TAG, "Header of telegram found");
+          this->reset_telegram_();
+          this->header_found_ = true;
+        }
+        if (!this->header_found_)
+          continue;
 
-    // Some v2.2 or v3 meters will send a new value which starts with '('
-    // in a new line, while the value belongs to the previous ObisId. For
-    // proper parsing, remove these new line characters.
-    if (c == '(') {
-      while (true) {
-        auto previous_char = this->telegram_[this->bytes_read_ - 1];
-        if (previous_char == '\n' || previous_char == '\r') {
-          this->bytes_read_--;
-        } else {
-          break;
+        // Check for buffer overflow.
+        if (this->bytes_read_ >= this->max_telegram_len_) {
+          this->reset_telegram_();
+          ESP_LOGE(TAG, "Error: telegram larger than buffer (%d bytes)", this->max_telegram_len_);
+          return;
+        }
+
+        // Some v2.2 or v3 meters will send a new value which starts with '('
+        // in a new line, while the value belongs to the previous ObisId. For
+        // proper parsing, remove these new line characters.
+        if (c == '(') {
+          while (true) {
+            auto previous_char = this->telegram_[this->bytes_read_ - 1];
+            if (previous_char == '\n' || previous_char == '\r') {
+              this->bytes_read_--;
+            } else {
+              break;
+            }
+          }
+        }
+
+        // Store the byte in the buffer.
+        this->telegram_[this->bytes_read_] = c;
+        this->bytes_read_++;
+
+        // Check for a footer, i.e. exclamation mark, followed by a hex checksum.
+        if (c == '!') {
+          ESP_LOGV(TAG, "Footer of telegram found");
+          this->footer_found_ = true;
+          continue;
+        }
+        // Check for the end of the hex checksum, i.e. a newline.
+        if (this->footer_found_ && c == '\n') {
+          // Parse the telegram and publish sensor values.
+          this->parse_telegram();
+          this->reset_telegram_();
+          return;
         }
       }
     }
-
-    // Store the byte in the buffer.
-    this->telegram_[this->bytes_read_] = c;
-    this->bytes_read_++;
-
-    // Check for a footer, i.e. exclamation mark, followed by a hex checksum.
-    if (c == '!') {
-      ESP_LOGV(TAG, "Footer of telegram found");
-      this->footer_found_ = true;
-      continue;
-    }
-    // Check for the end of the hex checksum, i.e. a newline.
-    if (this->footer_found_ && c == '\n') {
-      // Parse the telegram and publish sensor values.
-      this->parse_telegram();
-      this->reset_telegram_();
-      return;
-    }
   }
 }
 
 void Dsmr::receive_encrypted_telegram_() {
   while (this->available_within_timeout_()) {
-    const char c = this->read();
+    // Read all available bytes in batches to reduce UART call overhead.
+    uint8_t buf[64];
+    size_t avail = this->available();
+    while (avail > 0) {
+      size_t to_read = std::min(avail, sizeof(buf));
+      if (!this->read_array(buf, to_read))
+        return;
+      avail -= to_read;
 
-    // Find a new telegram start byte.
-    if (!this->header_found_) {
-      if ((uint8_t) c != 0xDB) {
-        continue;
+      for (size_t i = 0; i < to_read; i++) {
+        const char c = static_cast<char>(buf[i]);
+
+        // Find a new telegram start byte.
+        if (!this->header_found_) {
+          if ((uint8_t) c != 0xDB) {
+            continue;
+          }
+          ESP_LOGV(TAG, "Start byte 0xDB of encrypted telegram found");
+          this->reset_telegram_();
+          this->header_found_ = true;
+        }
+
+        // Check for buffer overflow.
+        if (this->crypt_bytes_read_ >= this->max_telegram_len_) {
+          this->reset_telegram_();
+          ESP_LOGE(TAG, "Error: encrypted telegram larger than buffer (%d bytes)", this->max_telegram_len_);
+          return;
+        }
+
+        // Store the byte in the buffer.
+        this->crypt_telegram_[this->crypt_bytes_read_] = c;
+        this->crypt_bytes_read_++;
+
+        // Read the length of the incoming encrypted telegram.
+        if (this->crypt_telegram_len_ == 0 && this->crypt_bytes_read_ > 20) {
+          // Complete header + data bytes
+          this->crypt_telegram_len_ = 13 + (this->crypt_telegram_[11] << 8 | this->crypt_telegram_[12]);
+          ESP_LOGV(TAG, "Encrypted telegram length: %d bytes", this->crypt_telegram_len_);
+        }
+
+        // Check for the end of the encrypted telegram.
+        if (this->crypt_telegram_len_ == 0 || this->crypt_bytes_read_ != this->crypt_telegram_len_) {
+          continue;
+        }
+        ESP_LOGV(TAG, "End of encrypted telegram found");
+
+        // Decrypt the encrypted telegram.
+        GCM<AES128> *gcmaes128{new GCM<AES128>()};
+        gcmaes128->setKey(this->decryption_key_.data(), gcmaes128->keySize());
+        // the iv is 8 bytes of the system title + 4 bytes frame counter
+        // system title is at byte 2 and frame counter at byte 15
+        for (int i = 10; i < 14; i++)
+          this->crypt_telegram_[i] = this->crypt_telegram_[i + 4];
+        constexpr uint16_t iv_size{12};
+        gcmaes128->setIV(&this->crypt_telegram_[2], iv_size);
+        gcmaes128->decrypt(reinterpret_cast<uint8_t *>(this->telegram_),
+                           // the ciphertext start at byte 18
+                           &this->crypt_telegram_[18],
+                           // cipher size
+                           this->crypt_bytes_read_ - 17);
+        delete gcmaes128;  // NOLINT(cppcoreguidelines-owning-memory)
+
+        this->bytes_read_ = strnlen(this->telegram_, this->max_telegram_len_);
+        ESP_LOGV(TAG, "Decrypted telegram size: %d bytes", this->bytes_read_);
+        ESP_LOGVV(TAG, "Decrypted telegram: %s", this->telegram_);
+
+        // Parse the decrypted telegram and publish sensor values.
+        this->parse_telegram();
+        this->reset_telegram_();
+        return;
       }
-      ESP_LOGV(TAG, "Start byte 0xDB of encrypted telegram found");
-      this->reset_telegram_();
-      this->header_found_ = true;
     }
-
-    // Check for buffer overflow.
-    if (this->crypt_bytes_read_ >= this->max_telegram_len_) {
-      this->reset_telegram_();
-      ESP_LOGE(TAG, "Error: encrypted telegram larger than buffer (%d bytes)", this->max_telegram_len_);
-      return;
-    }
-
-    // Store the byte in the buffer.
-    this->crypt_telegram_[this->crypt_bytes_read_] = c;
-    this->crypt_bytes_read_++;
-
-    // Read the length of the incoming encrypted telegram.
-    if (this->crypt_telegram_len_ == 0 && this->crypt_bytes_read_ > 20) {
-      // Complete header + data bytes
-      this->crypt_telegram_len_ = 13 + (this->crypt_telegram_[11] << 8 | this->crypt_telegram_[12]);
-      ESP_LOGV(TAG, "Encrypted telegram length: %d bytes", this->crypt_telegram_len_);
-    }
-
-    // Check for the end of the encrypted telegram.
-    if (this->crypt_telegram_len_ == 0 || this->crypt_bytes_read_ != this->crypt_telegram_len_) {
-      continue;
-    }
-    ESP_LOGV(TAG, "End of encrypted telegram found");
-
-    // Decrypt the encrypted telegram.
-    GCM<AES128> *gcmaes128{new GCM<AES128>()};
-    gcmaes128->setKey(this->decryption_key_.data(), gcmaes128->keySize());
-    // the iv is 8 bytes of the system title + 4 bytes frame counter
-    // system title is at byte 2 and frame counter at byte 15
-    for (int i = 10; i < 14; i++)
-      this->crypt_telegram_[i] = this->crypt_telegram_[i + 4];
-    constexpr uint16_t iv_size{12};
-    gcmaes128->setIV(&this->crypt_telegram_[2], iv_size);
-    gcmaes128->decrypt(reinterpret_cast<uint8_t *>(this->telegram_),
-                       // the ciphertext start at byte 18
-                       &this->crypt_telegram_[18],
-                       // cipher size
-                       this->crypt_bytes_read_ - 17);
-    delete gcmaes128;  // NOLINT(cppcoreguidelines-owning-memory)
-
-    this->bytes_read_ = strnlen(this->telegram_, this->max_telegram_len_);
-    ESP_LOGV(TAG, "Decrypted telegram size: %d bytes", this->bytes_read_);
-    ESP_LOGVV(TAG, "Decrypted telegram: %s", this->telegram_);
-
-    // Parse the decrypted telegram and publish sensor values.
-    this->parse_telegram();
-    this->reset_telegram_();
-    return;
   }
 }
 

esphome/components/dsmr/dsmr.h

@@ -85,6 +85,7 @@ class Dsmr : public Component, public uart::UARTDevice {
   void receive_telegram_();
   void receive_encrypted_telegram_();
   void reset_telegram_();
+  void drain_rx_buffer_();
 
   /// Wait for UART data to become available within the read timeout.
   ///

esphome/components/dsmr/sensor.py

@@ -718,14 +718,6 @@ CONFIG_SCHEMA = cv.Schema(
             device_class=DEVICE_CLASS_POWER,
             state_class=STATE_CLASS_MEASUREMENT,
         ),
-        cv.Optional("fw_core_version"): sensor.sensor_schema(
-            accuracy_decimals=3,
-            state_class=STATE_CLASS_MEASUREMENT,
-        ),
-        cv.Optional("fw_module_version"): sensor.sensor_schema(
-            accuracy_decimals=3,
-            state_class=STATE_CLASS_MEASUREMENT,
-        ),
     }
 ).extend(cv.COMPONENT_SCHEMA)
 

esphome/components/dsmr/text_sensor.py

@@ -26,7 +26,9 @@ CONFIG_SCHEMA = cv.Schema(
         cv.Optional("sub_equipment_id"): text_sensor.text_sensor_schema(),
         cv.Optional("gas_delivered_text"): text_sensor.text_sensor_schema(),
         cv.Optional("fw_core_checksum"): text_sensor.text_sensor_schema(),
+        cv.Optional("fw_core_version"): text_sensor.text_sensor_schema(),
         cv.Optional("fw_module_checksum"): text_sensor.text_sensor_schema(),
+        cv.Optional("fw_module_version"): text_sensor.text_sensor_schema(),
         cv.Optional("telegram"): text_sensor.text_sensor_schema().extend(
             {cv.Optional(CONF_INTERNAL, default=True): cv.boolean}
         ),

esphome/components/e131/e131.cpp

@@ -55,7 +55,6 @@ void E131Component::setup() {
 }
 
 void E131Component::loop() {
-  std::vector<uint8_t> payload;
   E131Packet packet;
   int universe = 0;
   uint8_t buf[1460];
@@ -64,11 +63,9 @@ void E131Component::loop() {
   if (len == -1) {
     return;
   }
-  payload.resize(len);
-  memmove(&payload[0], buf, len);
 
-  if (!this->packet_(payload, universe, packet)) {
-    ESP_LOGV(TAG, "Invalid packet received of size %zu.", payload.size());
+  if (!this->packet_(buf, (size_t) len, universe, packet)) {
+    ESP_LOGV(TAG, "Invalid packet received of size %zd.", len);
     return;
   }
 

esphome/components/e131/e131.h

@@ -38,7 +38,7 @@ class E131Component : public esphome::Component {
   void set_method(E131ListenMethod listen_method) { this->listen_method_ = listen_method; }
 
  protected:
-  bool packet_(const std::vector<uint8_t> &data, int &universe, E131Packet &packet);
+  bool packet_(const uint8_t *data, size_t len, int &universe, E131Packet &packet);
   bool process_(int universe, const E131Packet &packet);
   bool join_igmp_groups_();
   void join_(int universe);

esphome/components/e131/e131_packet.cpp

@@ -116,11 +116,11 @@ void E131Component::leave_(int universe) {
   ESP_LOGD(TAG, "Left %d universe for E1.31.", universe);
 }
 
-bool E131Component::packet_(const std::vector<uint8_t> &data, int &universe, E131Packet &packet) {
-  if (data.size() < E131_MIN_PACKET_SIZE)
+bool E131Component::packet_(const uint8_t *data, size_t len, int &universe, E131Packet &packet) {
+  if (len < E131_MIN_PACKET_SIZE)
     return false;
 
-  auto *sbuff = reinterpret_cast<const E131RawPacket *>(&data[0]);
+  auto *sbuff = reinterpret_cast<const E131RawPacket *>(data);
 
   if (memcmp(sbuff->acn_id, ACN_ID, sizeof(sbuff->acn_id)) != 0)
     return false;

esphome/components/epaper_spi/colorconv.h

@@ -0,0 +1,67 @@
+#pragma once
+
+#include <cstdint>
+#include <algorithm>
+#include "esphome/core/color.h"
+
+/* Utility for converting internal \a Color RGB representation to supported IC hardware color keys
+ *
+ * Focus in driver layer is on efficiency.
+ * For optimum output quality on RGB inputs consider offline color keying/dithering.
+ * Also see e.g. Image component.
+ */
+
+namespace esphome::epaper_spi {
+
+/** Delta for when to regard as gray */
+static constexpr uint8_t COLORCONV_GRAY_THRESHOLD = 50;
+
+/** Map RGB color to discrete BWYR hex 4 color key
+ *
+ * @tparam NATIVE_COLOR  Type of native hardware color values
+ * @param color     RGB color to convert from
+ * @param hw_black  Native value for black
+ * @param hw_white  Native value for white
+ * @param hw_yellow Native value for yellow
+ * @param hw_red    Native value for red
+ * @return          Converted native hardware color value
+ * @internal Constexpr. Does not depend on side effects ("pure").
+ */
+template<typename NATIVE_COLOR>
+constexpr NATIVE_COLOR color_to_bwyr(Color color, NATIVE_COLOR hw_black, NATIVE_COLOR hw_white, NATIVE_COLOR hw_yellow,
+                                     NATIVE_COLOR hw_red) {
+  // --- Step 1: Check for Grayscale (Black or White) ---
+  // We define "grayscale" as a color where the min and max components
+  // are close to each other.
+
+  const auto [min_rgb, max_rgb] = std::minmax({color.r, color.g, color.b});
+
+  if ((max_rgb - min_rgb) < COLORCONV_GRAY_THRESHOLD) {
+    // It's a shade of gray. Map to BLACK or WHITE.
+    // We split the luminance at the halfway point (382 = (255*3)/2)
+    if ((static_cast<int>(color.r) + color.g + color.b) > 382) {
+      return hw_white;
+    }
+    return hw_black;
+  }
+
+  // --- Step 2: Check for Primary/Secondary Colors ---
+  // If it's not gray, it's a color. We check which components are
+  // "on" (over 128) vs "off". This divides the RGB cube into 8 corners.
+  const bool r_on = (color.r > 128);
+  const bool g_on = (color.g > 128);
+  const bool b_on = (color.b > 128);
+
+  if (r_on) {
+    if (!b_on) {
+      return g_on ? hw_yellow : hw_red;
+    }
+
+    // At least red+blue high (but not gray) -> White
+    return hw_white;
+  } else {
+    return (b_on && g_on) ? hw_white : hw_black;
+  }
+}
+
+}  // namespace esphome::epaper_spi

esphome/components/epaper_spi/epaper_spi_jd79660.cpp

@@ -0,0 +1,227 @@
+#include "epaper_spi_jd79660.h"
+#include "colorconv.h"
+
+#include "esphome/core/log.h"
+
+namespace esphome::epaper_spi {
+static constexpr const char *const TAG = "epaper_spi.jd79660";
+
+/** Pixel color as 2bpp. Must match IC LUT values. */
+enum JD79660Color : uint8_t {
+  BLACK = 0b00,
+  WHITE = 0b01,
+  YELLOW = 0b10,
+  RED = 0b11,
+};
+
+/** Map RGB color to JD79660 BWYR hex color keys */
+static JD79660Color HOT color_to_hex(Color color) {
+  return color_to_bwyr(color, JD79660Color::BLACK, JD79660Color::WHITE, JD79660Color::YELLOW, JD79660Color::RED);
+}
+
+void EPaperJD79660::fill(Color color) {
+  // If clipping is active, fall back to base implementation
+  if (this->get_clipping().is_set()) {
+    EPaperBase::fill(color);
+    return;
+  }
+
+  const auto pixel_color = color_to_hex(color);
+
+  // We store 4 pixels per byte
+  this->buffer_.fill(pixel_color | (pixel_color << 2) | (pixel_color << 4) | (pixel_color << 6));
+}
+
+void HOT EPaperJD79660::draw_pixel_at(int x, int y, Color color) {
+  if (!this->rotate_coordinates_(x, y))
+    return;
+  const auto pixel_bits = color_to_hex(color);
+  const uint32_t pixel_position = x + y * this->get_width_internal();
+  // We store 4 pixels per byte at LSB offsets 6, 4, 2, 0
+  const uint32_t byte_position = pixel_position / 4;
+  const uint32_t bit_offset = 6 - ((pixel_position % 4) * 2);
+  const auto original = this->buffer_[byte_position];
+
+  this->buffer_[byte_position] = (original & (~(0b11 << bit_offset))) |  // mask old 2bpp
+                                 (pixel_bits << bit_offset);             // add new 2bpp
+}
+
+bool EPaperJD79660::reset() {
+  // On entry state RESET set step, next state will be RESET_END
+  if (this->state_ == EPaperState::RESET) {
+    this->step_ = FSMState::RESET_STEP0_H;
+  }
+
+  switch (this->step_) {
+    case FSMState::RESET_STEP0_H:
+      // Step #0: Reset H for some settle time.
+
+      ESP_LOGVV(TAG, "reset #0");
+      this->reset_pin_->digital_write(true);
+
+      this->reset_duration_ = SLEEP_MS_RESET0;
+      this->step_ = FSMState::RESET_STEP1_L;
+      return false;  // another loop: step #1 below
+
+    case FSMState::RESET_STEP1_L:
+      // Step #1: Reset L pulse for slightly >1.5ms.
+      // This is actual reset trigger.
+
+      ESP_LOGVV(TAG, "reset #1");
+
+      // As commented on SLEEP_MS_RESET1: Reset pulse must happen within time window.
+      // So do not use FSM loop, and avoid other calls/logs during pulse below.
+      this->reset_pin_->digital_write(false);
+      delay(SLEEP_MS_RESET1);
+      this->reset_pin_->digital_write(true);
+
+      this->reset_duration_ = SLEEP_MS_RESET2;
+      this->step_ = FSMState::RESET_STEP2_IDLECHECK;
+      return false;  // another loop: step #2 below
+
+    case FSMState::RESET_STEP2_IDLECHECK:
+      // Step #2: Basically finished. Check sanity, and move FSM to INITIALISE state
+      ESP_LOGVV(TAG, "reset #2");
+
+      if (!this->is_idle_()) {
+        // Expectation: Idle after reset + settle time.
+        // Improperly connected/unexpected hardware?
+        // Error path reproducable e.g. with disconnected VDD/... pins
+        // (optimally while busy_pin configured with local pulldown).
+        // -> Mark failed to avoid followup problems.
+        this->mark_failed(LOG_STR("Busy after reset"));
+      }
+      break;  // End state loop below
+
+    default:
+      // Unexpected step = bug?
+      this->mark_failed();
+  }
+
+  this->step_ = FSMState::INIT_STEP0_REGULARINIT;  // reset for initialize state
+  return true;
+}
+
+bool EPaperJD79660::initialise(bool partial) {
+  switch (this->step_) {
+    case FSMState::INIT_STEP0_REGULARINIT:
+      // Step #0: Regular init sequence
+      ESP_LOGVV(TAG, "init #0");
+      if (!EPaperBase::initialise(partial)) {  // Call parent impl
+        return false;                          // If parent should request another loop, do so
+      }
+
+      // Fast init requested + supported?
+      if (partial && (this->fast_update_length_ > 0)) {
+        this->step_ = FSMState::INIT_STEP1_FASTINIT;
+        this->wait_for_idle_(true);  // Must wait for idle before fastinit sequence in next loop
+        return false;                // another loop: step #1 below
+      }
+
+      break;  // End state loop below
+
+    case FSMState::INIT_STEP1_FASTINIT:
+      // Step #1: Fast init sequence
+      ESP_LOGVV(TAG, "init #1");
+      this->write_fastinit_();
+      break;  // End state loop below
+
+    default:
+      // Unexpected step = bug?
+      this->mark_failed();
+  }
+
+  this->step_ = FSMState::NONE;
+  return true;  // Finished: State transition waits for idle
+}
+
+bool EPaperJD79660::transfer_buffer_chunks_() {
+  size_t buf_idx = 0;
+  uint8_t bytes_to_send[MAX_TRANSFER_SIZE];
+  const uint32_t start_time = App.get_loop_component_start_time();
+  const auto buffer_length = this->buffer_length_;
+  while (this->current_data_index_ != buffer_length) {
+    bytes_to_send[buf_idx++] = this->buffer_[this->current_data_index_++];
+
+    if (buf_idx == sizeof bytes_to_send) {
+      this->start_data_();
+      this->write_array(bytes_to_send, buf_idx);
+      this->disable();
+      ESP_LOGVV(TAG, "Wrote %zu bytes at %ums", buf_idx, (unsigned) millis());
+      buf_idx = 0;
+
+      if (millis() - start_time > MAX_TRANSFER_TIME) {
+        // Let the main loop run and come back next loop
+        return false;
+      }
+    }
+  }
+
+  // Finished the entire dataset
+  if (buf_idx != 0) {
+    this->start_data_();
+    this->write_array(bytes_to_send, buf_idx);
+    this->disable();
+    ESP_LOGVV(TAG, "Wrote %zu bytes at %ums", buf_idx, (unsigned) millis());
+  }
+  // Cleanup for next transfer
+  this->current_data_index_ = 0;
+
+  // Finished with all buffer chunks
+  return true;
+}
+
+void EPaperJD79660::write_fastinit_() {
+  // Undocumented register sequence in vendor register range.
+  // Related to Fast Init/Update.
+  // Should likely happen after regular init seq and power on, but before refresh.
+  // Might only work for some models with certain factory MTP.
+  // Please do not change without knowledge to avoid breakage.
+
+  this->send_init_sequence_(this->fast_update_, this->fast_update_length_);
+}
+
+bool EPaperJD79660::transfer_data() {
+  // For now always send full frame buffer in chunks.
+  // JD79660 might support partial window transfers. But sample code missing.
+  // And likely minimal impact, solely on SPI transfer time into RAM.
+
+  if (this->current_data_index_ == 0) {
+    this->command(CMD_TRANSFER);
+  }
+
+  return this->transfer_buffer_chunks_();
+}
+
+void EPaperJD79660::refresh_screen([[maybe_unused]] bool partial) {
+  ESP_LOGV(TAG, "Refresh");
+  this->cmd_data(CMD_REFRESH, {(uint8_t) 0x00});
+}
+
+void EPaperJD79660::power_off() {
+  ESP_LOGV(TAG, "Power off");
+  this->cmd_data(CMD_POWEROFF, {(uint8_t) 0x00});
+}
+
+void EPaperJD79660::deep_sleep() {
+  ESP_LOGV(TAG, "Deep sleep");
+  // "Deepsleep between update": Ensure EPD sleep to avoid early hardware wearout!
+  this->cmd_data(CMD_DEEPSLEEP, {(uint8_t) 0xA5});
+
+  // Notes:
+  // - VDD: Some boards (Waveshare) with "clever reset logic" would allow switching off
+  //   EPD VDD by pulling reset pin low for longer time.
+  //   However, a) not all boards have this, b) reliable sequence timing is difficult,
+  //   c) saving is not worth it after deepsleep command above.
+  //   If needed: Better option is to drive VDD via MOSFET with separate enable pin.
+  //
+  // - Possible safe shutdown:
+  //   EPaperBase::on_safe_shutdown() may also trigger deep_sleep() again.
+  //   Regularly, in IDLE state, this does not make sense for this "deepsleep between update" model,
+  //   but SPI sequence should simply be ignored by sleeping receiver.
+  //   But if triggering during lengthy update, this quick SPI sleep sequence may have benefit.
+  //   Optimally, EPDs should even be set all white for longer storage.
+  //   But full sequence (>15s) not possible w/o app logic.
+}
+
+}  // namespace esphome::epaper_spi

esphome/components/epaper_spi/epaper_spi_jd79660.h

@@ -0,0 +1,145 @@
+#pragma once
+
+#include "epaper_spi.h"
+
+namespace esphome::epaper_spi {
+
+/**
+ * JD7966x IC driver implementation
+ *
+ * Currently tested with:
+ * - JD79660 (max res: 200x200)
+ *
+ * May also work for other JD7966x chipset family members with minimal adaptations.
+ *
+ * Capabilities:
+ * - HW frame buffer layout:
+ *   4 colors (gray0..3, commonly BWYR). Bytes consist of 4px/2bpp.
+ *   Width must be rounded to multiple of 4.
+ * - Fast init/update (shorter wave forms): Yes. Controlled by CONF_FULL_UPDATE_EVERY.
+ *   Needs undocumented fastinit sequence, based on likely vendor specific MTP content.
+ * - Partial transfer (transfer only changed window): No. Maybe possible by HW.
+ * - Partial refresh (refresh only changed window): No. Likely HW limit.
+ *
+ * @internal \c final saves few bytes by devirtualization. Remove \c final when subclassing.
+ */
+class EPaperJD79660 final : public EPaperBase {
+ public:
+  EPaperJD79660(const char *name, uint16_t width, uint16_t height, const uint8_t *init_sequence,
+                size_t init_sequence_length, const uint8_t *fast_update, uint16_t fast_update_length)
+      : EPaperBase(name, width, height, init_sequence, init_sequence_length, DISPLAY_TYPE_COLOR),
+        fast_update_(fast_update),
+        fast_update_length_(fast_update_length) {
+    this->row_width_ = (width + 3) / 4;  // Fix base class calc (2bpp instead of 1bpp)
+    this->buffer_length_ = this->row_width_ * height;
+  }
+
+  void fill(Color color) override;
+
+ protected:
+  /** Draw colored pixel into frame buffer */
+  void draw_pixel_at(int x, int y, Color color) override;
+
+  /** Reset (multistep sequence)
+   * @pre this->reset_pin_ != nullptr // cv.Required check
+   * @post Should be idle on successful reset. Can mark failures.
+   */
+  bool reset() override;
+
+  /** Initialise (multistep sequence) */
+  bool initialise(bool partial) override;
+
+  /** Buffer transfer */
+  bool transfer_data() override;
+
+  /** Power on: Already part of init sequence (likely needed there before transferring buffers).
+   * So nothing to do in FSM state.
+   */
+  void power_on() override {}
+
+  /** Refresh screen
+   * @param partial Ignored: Needed earlier in \a ::initialize
+   * @pre Must be idle.
+   * @post Should return to idle later after processing.
+   */
+  void refresh_screen([[maybe_unused]] bool partial) override;
+
+  /** Power off
+   * @pre Must be idle.
+   * @post Should return to idle later after processing.
+   *       (latter will take long period like ~15-20s on actual refresh!)
+   */
+  void power_off() override;
+
+  /** Deepsleep: Must be used to avoid hardware wearout!
+   * @pre Must be idle.
+   * @post Will go busy, and not return idle till ::reset!
+   */
+  void deep_sleep() override;
+
+  /** Internal: Send fast init sequence via undocumented vendor registers
+   * @pre Must be directly after regular ::initialise sequence, before ::transfer_data
+   * @pre Must be idle.
+   * @post Should return to idle later after processing.
+   */
+  void write_fastinit_();
+
+  /** Internal: Send raw buffer in chunks
+   * \retval true Finished
+   * \retval false Loop time elapsed. Need to call again next loop.
+   */
+  bool transfer_buffer_chunks_();
+
+  /** @name IC commands @{ */
+  static constexpr uint8_t CMD_POWEROFF = 0x02;
+  static constexpr uint8_t CMD_DEEPSLEEP = 0x07;
+  static constexpr uint8_t CMD_TRANSFER = 0x10;
+  static constexpr uint8_t CMD_REFRESH = 0x12;
+  /** @} */
+
+  /** State machine constants for \a step_ */
+  enum class FSMState : uint8_t {
+    NONE = 0,  //!< Initial/default value: Unused
+
+    /* Reset state steps */
+    RESET_STEP0_H,
+    RESET_STEP1_L,
+    RESET_STEP2_IDLECHECK,
+
+    /* Init state steps */
+    INIT_STEP0_REGULARINIT,
+    INIT_STEP1_FASTINIT,
+  };
+
+  /** Wait time (millisec) for first reset phase: High
+   *
+   * Wait via FSM loop.
+   */
+  static constexpr uint16_t SLEEP_MS_RESET0 = 200;
+
+  /** Wait time (millisec) for second reset phase: Low
+   *
+   * Holding Reset Low too long may trigger "clever reset" logic
+   * of e.g. Waveshare Rev2 boards: VDD is shut down via MOSFET, and IC
+   * will not report idle anymore!
+   * FSM loop may spuriously increase delay, e.g. >16ms.
+   * Therefore, sync wait below, as allowed (code rule "delays > 10ms not permitted"),
+   * yet only slightly exceeding known IC min req of >1.5ms.
+   */
+  static constexpr uint16_t SLEEP_MS_RESET1 = 2;
+
+  /** Wait time (millisec) for third reset phase: High
+   *
+   * Wait via FSM loop.
+   */
+  static constexpr uint16_t SLEEP_MS_RESET2 = 200;
+
+  // properties initialised in the constructor
+  const uint8_t *const fast_update_{};
+  const uint16_t fast_update_length_{};
+
+  /** Counter for tracking substeps within FSM state */
+  FSMState step_{FSMState::NONE};
+};
+
+}  // namespace esphome::epaper_spi

esphome/components/epaper_spi/epaper_spi_spectra_e6.h

@@ -4,7 +4,7 @@
 
 namespace esphome::epaper_spi {
 
-class EPaperSpectraE6 : public EPaperBase {
+class EPaperSpectraE6 final : public EPaperBase {
  public:
   EPaperSpectraE6(const char *name, uint16_t width, uint16_t height, const uint8_t *init_sequence,
                   size_t init_sequence_length)

esphome/components/epaper_spi/epaper_waveshare.h

@@ -6,7 +6,7 @@ namespace esphome::epaper_spi {
 /**
  * An epaper display that needs LUTs to be sent to it.
  */
-class EpaperWaveshare : public EPaperMono {
+class EpaperWaveshare final : public EPaperMono {
  public:
   EpaperWaveshare(const char *name, uint16_t width, uint16_t height, const uint8_t *init_sequence,
                   size_t init_sequence_length, const uint8_t *lut, size_t lut_length, const uint8_t *partial_lut,

esphome/components/epaper_spi/models/jd79660.py

@@ -0,0 +1,86 @@
+import esphome.codegen as cg
+from esphome.components.mipi import flatten_sequence
+import esphome.config_validation as cv
+from esphome.const import CONF_BUSY_PIN, CONF_RESET_PIN
+from esphome.core import ID
+
+from ..display import CONF_INIT_SEQUENCE_ID
+from . import EpaperModel
+
+
+class JD79660(EpaperModel):
+    def __init__(self, name, class_name="EPaperJD79660", fast_update=None, **kwargs):
+        super().__init__(name, class_name, **kwargs)
+        self.fast_update = fast_update
+
+    def option(self, name, fallback=cv.UNDEFINED) -> cv.Optional | cv.Required:
+        # Validate required pins, as C++ code will assume existence
+        if name in (CONF_RESET_PIN, CONF_BUSY_PIN):
+            return cv.Required(name)
+
+        # Delegate to parent
+        return super().option(name, fallback)
+
+    def get_constructor_args(self, config) -> tuple:
+        # Resembles init_sequence handling for fast_update config
+        if self.fast_update is None:
+            fast_update = cg.nullptr, 0
+        else:
+            flat_fast_update = flatten_sequence(self.fast_update)
+            fast_update = (
+                cg.static_const_array(
+                    ID(
+                        config[CONF_INIT_SEQUENCE_ID].id + "_fast_update", type=cg.uint8
+                    ),
+                    flat_fast_update,
+                ),
+                len(flat_fast_update),
+            )
+        return (*fast_update,)
+
+
+jd79660 = JD79660(
+    "jd79660",
+    # Specified refresh times are ~20s (full) or ~15s (fast) due to BWRY.
+    # So disallow low update intervals (with safety margin), to avoid e.g. FSM update loops.
+    # Even less frequent intervals (min/h) highly recommended to optimize lifetime!
+    minimum_update_interval="30s",
+    # SPI rate: From spec comparisons, IC should allow SCL write cycles up to 10MHz rate.
+    # Existing code samples also prefer 10MHz. So justifies as default.
+    # Decrease value further in user config if needed (e.g. poor cabling).
+    data_rate="10MHz",
+    # No need to set optional reset_duration:
+    # Code requires multistep reset sequence with precise timings
+    # according to data sheet or samples.
+)
+
+# Waveshare 1.54-G
+#
+# Device may have specific factory provisioned MTP content to facilitate vendor register features like fast init.
+# Vendor specific init derived from vendor sample code
+# <https://github.com/waveshareteam/e-Paper/blob/master/E-paper_Separate_Program/1in54_e-Paper_G/ESP32/EPD_1in54g.cpp>
+# Compatible MIT license, see esphome/LICENSE file.
+#
+# fmt: off
+jd79660.extend(
+    "Waveshare-1.54in-G",
+    width=200,
+    height=200,
+
+    initsequence=(
+        (0x4D, 0x78,),
+        (0x00, 0x0F, 0x29,),
+        (0x06, 0x0d, 0x12, 0x30, 0x20, 0x19, 0x2a, 0x22,),
+        (0x50, 0x37,),
+        (0x61, 200 // 256, 200 % 256, 200 // 256, 200 % 256,),  # RES: 200x200 fixed
+        (0xE9, 0x01,),
+        (0x30, 0x08,),
+        # Power On (0x04): Must be early part of init seq = Disabled later!
+        (0x04,),
+    ),
+    fast_update=(
+        (0xE0, 0x02,),
+        (0xE6, 0x5D,),
+        (0xA5, 0x00,),
+    ),
+)

esphome/components/esp32/__init__.py

@@ -1435,6 +1435,10 @@ async def to_code(config):
         CORE.relative_internal_path(".espressif")
     )
 
+    # Set the uv cache inside the data dir so "Clean All" clears it.
+    # Avoids persistent corrupted cache from mid-stream download failures.
+    os.environ["UV_CACHE_DIR"] = str(CORE.relative_internal_path(".uv_cache"))
+
     if conf[CONF_TYPE] == FRAMEWORK_ESP_IDF:
         cg.add_build_flag("-DUSE_ESP_IDF")
         cg.add_build_flag("-DUSE_ESP32_FRAMEWORK_ESP_IDF")

esphome/components/esp32_ble/ble_uuid.h

@@ -48,7 +48,7 @@ class ESPBTUUID {
 
   // Remove before 2026.8.0
   ESPDEPRECATED("Use to_str() instead. Removed in 2026.8.0", "2026.2.0")
-  std::string to_string() const;
+  std::string to_string() const;  // NOLINT
   const char *to_str(std::span<char, UUID_STR_LEN> output) const;
 
  protected:

esphome/components/esp32_hosted/update/esp32_hosted_update.cpp

@@ -27,6 +27,11 @@ static const char *const TAG = "esp32_hosted.update";
 // Older coprocessor firmware versions have a 1500-byte limit per RPC call
 constexpr size_t CHUNK_SIZE = 1500;
 
+#ifdef USE_ESP32_HOSTED_HTTP_UPDATE
+// Interval/timeout IDs (uint32_t to avoid string comparison)
+constexpr uint32_t INITIAL_CHECK_INTERVAL_ID = 0;
+#endif
+
 // Compile-time version string from esp_hosted_host_fw_ver.h macros
 #define STRINGIFY_(x) #x
 #define STRINGIFY(x) STRINGIFY_(x)
@@ -127,15 +132,18 @@ void Esp32HostedUpdate::setup() {
   this->status_clear_error();
   this->publish_state();
 #else
-  // HTTP mode: retry initial check every 10s until network is ready (max 6 attempts)
+  // HTTP mode: check every 10s until network is ready (max 6 attempts)
   // Only if update interval is > 1 minute to avoid redundant checks
   if (this->get_update_interval() > 60000) {
-    this->set_retry("initial_check", 10000, 6, [this](uint8_t) {
-      if (!network::is_connected()) {
-        return RetryResult::RETRY;
+    this->initial_check_remaining_ = 6;
+    this->set_interval(INITIAL_CHECK_INTERVAL_ID, 10000, [this]() {
+      bool connected = network::is_connected();
+      if (--this->initial_check_remaining_ == 0 || connected) {
+        this->cancel_interval(INITIAL_CHECK_INTERVAL_ID);
+        if (connected) {
+          this->check();
+        }
       }
-      this->check();
-      return RetryResult::DONE;
     });
   }
 #endif

esphome/components/esp32_hosted/update/esp32_hosted_update.h

@@ -44,6 +44,7 @@ class Esp32HostedUpdate : public update::UpdateEntity, public PollingComponent {
   // HTTP mode helpers
   bool fetch_manifest_();
   bool stream_firmware_to_coprocessor_();
+  uint8_t initial_check_remaining_{0};
 #else
   // Embedded mode members
   const uint8_t *firmware_data_{nullptr};

esphome/components/hlk_fm22x/hlk_fm22x.cpp

@@ -1,20 +1,16 @@
 #include "hlk_fm22x.h"
 #include "esphome/core/log.h"
 #include "esphome/core/helpers.h"
-#include <array>
 #include <cinttypes>
 
 namespace esphome::hlk_fm22x {
 
 static const char *const TAG = "hlk_fm22x";
 
-// Maximum response size is 36 bytes (VERIFY reply: face_id + 32-byte name)
-static constexpr size_t HLK_FM22X_MAX_RESPONSE_SIZE = 36;
-
 void HlkFm22xComponent::setup() {
   ESP_LOGCONFIG(TAG, "Setting up HLK-FM22X...");
   this->set_enrolling_(false);
-  while (this->available()) {
+  while (this->available() > 0) {
     this->read();
   }
   this->defer([this]() { this->send_command_(HlkFm22xCommand::GET_STATUS); });
@@ -35,7 +31,7 @@ void HlkFm22xComponent::update() {
 }
 
 void HlkFm22xComponent::enroll_face(const std::string &name, HlkFm22xFaceDirection direction) {
-  if (name.length() > 31) {
+  if (name.length() > HLK_FM22X_NAME_SIZE - 1) {
     ESP_LOGE(TAG, "enroll_face(): name too long '%s'", name.c_str());
     return;
   }
@@ -88,7 +84,7 @@ void HlkFm22xComponent::send_command_(HlkFm22xCommand command, const uint8_t *da
   }
   this->wait_cycles_ = 0;
   this->active_command_ = command;
-  while (this->available())
+  while (this->available() > 0)
     this->read();
   this->write((uint8_t) (START_CODE >> 8));
   this->write((uint8_t) (START_CODE & 0xFF));
@@ -137,17 +133,24 @@ void HlkFm22xComponent::recv_command_() {
   checksum ^= byte;
   length |= byte;
 
-  std::vector<uint8_t> data;
-  data.reserve(length);
+  if (length > HLK_FM22X_MAX_RESPONSE_SIZE) {
+    ESP_LOGE(TAG, "Response too large: %u bytes", length);
+    // Discard exactly the remaining payload and checksum for this frame
+    for (uint16_t i = 0; i < length + 1 && this->available() > 0; ++i)
+      this->read();
+    return;
+  }
+
   for (uint16_t idx = 0; idx < length; ++idx) {
     byte = this->read();
     checksum ^= byte;
-    data.push_back(byte);
+    this->recv_buf_[idx] = byte;
   }
 
 #if ESPHOME_LOG_LEVEL >= ESPHOME_LOG_LEVEL_VERBOSE
   char hex_buf[format_hex_pretty_size(HLK_FM22X_MAX_RESPONSE_SIZE)];
-  ESP_LOGV(TAG, "Recv type: 0x%.2X, data: %s", response_type, format_hex_pretty_to(hex_buf, data.data(), data.size()));
+  ESP_LOGV(TAG, "Recv type: 0x%.2X, data: %s", response_type,
+           format_hex_pretty_to(hex_buf, this->recv_buf_.data(), length));
 #endif
 
   byte = this->read();
@@ -157,10 +160,10 @@ void HlkFm22xComponent::recv_command_() {
   }
   switch (response_type) {
     case HlkFm22xResponseType::NOTE:
-      this->handle_note_(data);
+      this->handle_note_(this->recv_buf_.data(), length);
       break;
     case HlkFm22xResponseType::REPLY:
-      this->handle_reply_(data);
+      this->handle_reply_(this->recv_buf_.data(), length);
       break;
     default:
       ESP_LOGW(TAG, "Unexpected response type: 0x%.2X", response_type);
@@ -168,11 +171,15 @@ void HlkFm22xComponent::recv_command_() {
   }
 }
 
-void HlkFm22xComponent::handle_note_(const std::vector<uint8_t> &data) {
+void HlkFm22xComponent::handle_note_(const uint8_t *data, size_t length) {
+  if (length < 1) {
+    ESP_LOGE(TAG, "Empty note data");
+    return;
+  }
   switch (data[0]) {
     case HlkFm22xNoteType::FACE_STATE:
-      if (data.size() < 17) {
-        ESP_LOGE(TAG, "Invalid face note data size: %u", data.size());
+      if (length < 17) {
+        ESP_LOGE(TAG, "Invalid face note data size: %zu", length);
         break;
       }
       {
@@ -209,9 +216,13 @@ void HlkFm22xComponent::handle_note_(const std::vector<uint8_t> &data) {
   }
 }
 
-void HlkFm22xComponent::handle_reply_(const std::vector<uint8_t> &data) {
+void HlkFm22xComponent::handle_reply_(const uint8_t *data, size_t length) {
   auto expected = this->active_command_;
   this->active_command_ = HlkFm22xCommand::NONE;
+  if (length < 2) {
+    ESP_LOGE(TAG, "Reply too short: %zu bytes", length);
+    return;
+  }
   if (data[0] != (uint8_t) expected) {
     ESP_LOGE(TAG, "Unexpected response command. Expected: 0x%.2X, Received: 0x%.2X", expected, data[0]);
     return;
@@ -238,16 +249,20 @@ void HlkFm22xComponent::handle_reply_(const std::vector<uint8_t> &data) {
   }
   switch (expected) {
     case HlkFm22xCommand::VERIFY: {
+      if (length < 4 + HLK_FM22X_NAME_SIZE) {
+        ESP_LOGE(TAG, "VERIFY response too short: %zu bytes", length);
+        break;
+      }
       int16_t face_id = ((int16_t) data[2] << 8) | data[3];
-      std::string name(data.begin() + 4, data.begin() + 36);
-      ESP_LOGD(TAG, "Face verified. ID: %d, name: %s", face_id, name.c_str());
+      const char *name_ptr = reinterpret_cast<const char *>(data + 4);
+      ESP_LOGD(TAG, "Face verified. ID: %d, name: %.*s", face_id, (int) HLK_FM22X_NAME_SIZE, name_ptr);
       if (this->last_face_id_sensor_ != nullptr) {
         this->last_face_id_sensor_->publish_state(face_id);
       }
       if (this->last_face_name_text_sensor_ != nullptr) {
-        this->last_face_name_text_sensor_->publish_state(name);
+        this->last_face_name_text_sensor_->publish_state(name_ptr, HLK_FM22X_NAME_SIZE);
       }
-      this->face_scan_matched_callback_.call(face_id, name);
+      this->face_scan_matched_callback_.call(face_id, std::string(name_ptr, HLK_FM22X_NAME_SIZE));
       break;
     }
     case HlkFm22xCommand::ENROLL: {
@@ -266,9 +281,8 @@ void HlkFm22xComponent::handle_reply_(const std::vector<uint8_t> &data) {
       this->defer([this]() { this->send_command_(HlkFm22xCommand::GET_VERSION); });
       break;
     case HlkFm22xCommand::GET_VERSION:
-      if (this->version_text_sensor_ != nullptr) {
-        std::string version(data.begin() + 2, data.end());
-        this->version_text_sensor_->publish_state(version);
+      if (this->version_text_sensor_ != nullptr && length > 2) {
+        this->version_text_sensor_->publish_state(reinterpret_cast<const char *>(data + 2), length - 2);
       }
       this->defer([this]() { this->get_face_count_(); });
       break;

esphome/components/hlk_fm22x/hlk_fm22x.h

@@ -7,12 +7,15 @@
 #include "esphome/components/text_sensor/text_sensor.h"
 #include "esphome/components/uart/uart.h"
 
+#include <array>
 #include <utility>
-#include <vector>
 
 namespace esphome::hlk_fm22x {
 
 static const uint16_t START_CODE = 0xEFAA;
+static constexpr size_t HLK_FM22X_NAME_SIZE = 32;
+// Maximum response payload: command(1) + result(1) + face_id(2) + name(32) = 36
+static constexpr size_t HLK_FM22X_MAX_RESPONSE_SIZE = 36;
 enum HlkFm22xCommand {
   NONE = 0x00,
   RESET = 0x10,
@@ -118,10 +121,11 @@ class HlkFm22xComponent : public PollingComponent, public uart::UARTDevice {
   void get_face_count_();
   void send_command_(HlkFm22xCommand command, const uint8_t *data = nullptr, size_t size = 0);
   void recv_command_();
-  void handle_note_(const std::vector<uint8_t> &data);
-  void handle_reply_(const std::vector<uint8_t> &data);
+  void handle_note_(const uint8_t *data, size_t length);
+  void handle_reply_(const uint8_t *data, size_t length);
   void set_enrolling_(bool enrolling);
 
+  std::array<uint8_t, HLK_FM22X_MAX_RESPONSE_SIZE> recv_buf_;
   HlkFm22xCommand active_command_ = HlkFm22xCommand::NONE;
   uint16_t wait_cycles_ = 0;
   sensor::Sensor *face_count_sensor_{nullptr};

esphome/components/i2c/i2c_bus_arduino.cpp

@@ -134,25 +134,23 @@ ErrorCode ArduinoI2CBus::write_readv(uint8_t address, const uint8_t *write_buffe
     for (size_t j = 0; j != read_count; j++)
       read_buffer[j] = wire_->read();
   }
-  switch (status) {
-    case 0:
-      return ERROR_OK;
-    case 1:
-      // transmit buffer not large enough
-      ESP_LOGVV(TAG, "TX failed: buffer not large enough");
-      return ERROR_UNKNOWN;
-    case 2:
-    case 3:
-      ESP_LOGVV(TAG, "TX failed: not acknowledged: %d", status);
-      return ERROR_NOT_ACKNOWLEDGED;
-    case 5:
-      ESP_LOGVV(TAG, "TX failed: timeout");
-      return ERROR_UNKNOWN;
-    case 4:
-    default:
-      ESP_LOGVV(TAG, "TX failed: unknown error %u", status);
-      return ERROR_UNKNOWN;
+  // Avoid switch to prevent compiler-generated lookup table in RAM on ESP8266
+  if (status == 0)
+    return ERROR_OK;
+  if (status == 1) {
+    ESP_LOGVV(TAG, "TX failed: buffer not large enough");
+    return ERROR_UNKNOWN;
   }
+  if (status == 2 || status == 3) {
+    ESP_LOGVV(TAG, "TX failed: not acknowledged: %u", status);
+    return ERROR_NOT_ACKNOWLEDGED;
+  }
+  if (status == 5) {
+    ESP_LOGVV(TAG, "TX failed: timeout");
+    return ERROR_UNKNOWN;
+  }
+  ESP_LOGVV(TAG, "TX failed: unknown error %u", status);
+  return ERROR_UNKNOWN;
 }
 
 /// Perform I2C bus recovery, see:

esphome/components/ld2410/ld2410.cpp

@@ -275,8 +275,19 @@ void LD2410Component::restart_and_read_all_info() {
 }
 
 void LD2410Component::loop() {
-  while (this->available()) {
-    this->readline_(this->read());
+  // Read all available bytes in batches to reduce UART call overhead.
+  size_t avail = this->available();
+  uint8_t buf[MAX_LINE_LENGTH];
+  while (avail > 0) {
+    size_t to_read = std::min(avail, sizeof(buf));
+    if (!this->read_array(buf, to_read)) {
+      break;
+    }
+    avail -= to_read;
+
+    for (size_t i = 0; i < to_read; i++) {
+      this->readline_(buf[i]);
+    }
   }
 }
 

esphome/components/ld2412/ld2412.cpp

@@ -310,8 +310,19 @@ void LD2412Component::restart_and_read_all_info() {
 }
 
 void LD2412Component::loop() {
-  while (this->available()) {
-    this->readline_(this->read());
+  // Read all available bytes in batches to reduce UART call overhead.
+  size_t avail = this->available();
+  uint8_t buf[MAX_LINE_LENGTH];
+  while (avail > 0) {
+    size_t to_read = std::min(avail, sizeof(buf));
+    if (!this->read_array(buf, to_read)) {
+      break;
+    }
+    avail -= to_read;
+
+    for (size_t i = 0; i < to_read; i++) {
+      this->readline_(buf[i]);
+    }
   }
 }
 

esphome/components/ld2420/ld2420.cpp

@@ -335,9 +335,10 @@ void LD2420Component::revert_config_action() {
 
 void LD2420Component::loop() {
   // If there is a active send command do not process it here, the send command call will handle it.
-  while (!this->cmd_active_ && this->available()) {
-    this->readline_(this->read(), this->buffer_data_, MAX_LINE_LENGTH);
+  if (this->cmd_active_) {
+    return;
   }
+  this->read_batch_(this->buffer_data_);
 }
 
 void LD2420Component::update_radar_data(uint16_t const *gate_energy, uint8_t sample_number) {
@@ -539,6 +540,23 @@ void LD2420Component::handle_simple_mode_(const uint8_t *inbuf, int len) {
   }
 }
 
+void LD2420Component::read_batch_(std::span<uint8_t, MAX_LINE_LENGTH> buffer) {
+  // Read all available bytes in batches to reduce UART call overhead.
+  size_t avail = this->available();
+  uint8_t buf[MAX_LINE_LENGTH];
+  while (avail > 0) {
+    size_t to_read = std::min(avail, sizeof(buf));
+    if (!this->read_array(buf, to_read)) {
+      break;
+    }
+    avail -= to_read;
+
+    for (size_t i = 0; i < to_read; i++) {
+      this->readline_(buf[i], buffer.data(), buffer.size());
+    }
+  }
+}
+
 void LD2420Component::handle_ack_data_(uint8_t *buffer, int len) {
   this->cmd_reply_.command = buffer[CMD_FRAME_COMMAND];
   this->cmd_reply_.length = buffer[CMD_FRAME_DATA_LENGTH];

esphome/components/ld2420/ld2420.h

@@ -4,6 +4,7 @@
 #include "esphome/components/uart/uart.h"
 #include "esphome/core/automation.h"
 #include "esphome/core/helpers.h"
+#include <span>
 #ifdef USE_TEXT_SENSOR
 #include "esphome/components/text_sensor/text_sensor.h"
 #endif
@@ -165,6 +166,7 @@ class LD2420Component : public Component, public uart::UARTDevice {
   void handle_energy_mode_(uint8_t *buffer, int len);
   void handle_ack_data_(uint8_t *buffer, int len);
   void readline_(int rx_data, uint8_t *buffer, int len);
+  void read_batch_(std::span<uint8_t, MAX_LINE_LENGTH> buffer);
   void set_calibration_(bool state) { this->calibration_ = state; };
   bool get_calibration_() { return this->calibration_; };
 

esphome/components/ld2450/ld2450.cpp

@@ -276,8 +276,19 @@ void LD2450Component::dump_config() {
 }
 
 void LD2450Component::loop() {
-  while (this->available()) {
-    this->readline_(this->read());
+  // Read all available bytes in batches to reduce UART call overhead.
+  size_t avail = this->available();
+  uint8_t buf[MAX_LINE_LENGTH];
+  while (avail > 0) {
+    size_t to_read = std::min(avail, sizeof(buf));
+    if (!this->read_array(buf, to_read)) {
+      break;
+    }
+    avail -= to_read;
+
+    for (size_t i = 0; i < to_read; i++) {
+      this->readline_(buf[i]);
+    }
   }
 }
 

esphome/components/logger/logger.cpp

@@ -36,8 +36,9 @@ void HOT Logger::log_vprintf_(uint8_t level, const char *tag, int line, const ch
 #endif
 
   // Fast path: main thread, no recursion (99.9% of all logs)
+  // Pass nullptr for thread_name since we already know this is the main task
   if (is_main_task && !this->main_task_recursion_guard_) [[likely]] {
-    this->log_message_to_buffer_and_send_(this->main_task_recursion_guard_, level, tag, line, format, args);
+    this->log_message_to_buffer_and_send_(this->main_task_recursion_guard_, level, tag, line, format, args, nullptr);
     return;
   }
 
@@ -47,21 +48,23 @@ void HOT Logger::log_vprintf_(uint8_t level, const char *tag, int line, const ch
   }
 
   // Non-main thread handling (~0.1% of logs)
+  // Resolve thread name once and pass it through the logging chain.
+  // ESP32/LibreTiny: use TaskHandle_t overload to avoid redundant xTaskGetCurrentTaskHandle()
+  // (we already have the handle from the main task check above).
+  // Host: pass a stack buffer for pthread_getname_np to write into.
 #if defined(USE_ESP32) || defined(USE_LIBRETINY)
-  this->log_vprintf_non_main_thread_(level, tag, line, format, args, current_task);
+  const char *thread_name = get_thread_name_(current_task);
 #else  // USE_HOST
-  this->log_vprintf_non_main_thread_(level, tag, line, format, args);
+  char thread_name_buf[THREAD_NAME_BUF_SIZE];
+  const char *thread_name = this->get_thread_name_(thread_name_buf);
 #endif
+  this->log_vprintf_non_main_thread_(level, tag, line, format, args, thread_name);
 }
 
 // Handles non-main thread logging only
 // Kept separate from hot path to improve instruction cache performance
-#if defined(USE_ESP32) || defined(USE_LIBRETINY)
 void Logger::log_vprintf_non_main_thread_(uint8_t level, const char *tag, int line, const char *format, va_list args,
-                                          TaskHandle_t current_task) {
-#else  // USE_HOST
-void Logger::log_vprintf_non_main_thread_(uint8_t level, const char *tag, int line, const char *format, va_list args) {
-#endif
+                                          const char *thread_name) {
   // Check if already in recursion for this non-main thread/task
   if (this->is_non_main_task_recursive_()) {
     return;
@@ -73,12 +76,8 @@ void Logger::log_vprintf_non_main_thread_(uint8_t level, const char *tag, int li
   bool message_sent = false;
 #ifdef USE_ESPHOME_TASK_LOG_BUFFER
   // For non-main threads/tasks, queue the message for callbacks
-#if defined(USE_ESP32) || defined(USE_LIBRETINY)
   message_sent =
-      this->log_buffer_->send_message_thread_safe(level, tag, static_cast<uint16_t>(line), current_task, format, args);
-#else  // USE_HOST
-  message_sent = this->log_buffer_->send_message_thread_safe(level, tag, static_cast<uint16_t>(line), format, args);
-#endif
+      this->log_buffer_->send_message_thread_safe(level, tag, static_cast<uint16_t>(line), thread_name, format, args);
   if (message_sent) {
     // Enable logger loop to process the buffered message
     // This is safe to call from any context including ISRs
@@ -101,19 +100,27 @@ void Logger::log_vprintf_non_main_thread_(uint8_t level, const char *tag, int li
 #endif
     char console_buffer[MAX_CONSOLE_LOG_MSG_SIZE];  // MUST be stack allocated for thread safety
     LogBuffer buf{console_buffer, MAX_CONSOLE_LOG_MSG_SIZE};
-    this->format_log_to_buffer_with_terminator_(level, tag, line, format, args, buf);
+    this->format_log_to_buffer_with_terminator_(level, tag, line, format, args, buf, thread_name);
     this->write_to_console_(buf);
   }
 
   // RAII guard automatically resets on return
 }
 #else
-// Implementation for all other platforms (single-task, no threading)
+// Implementation for single-task platforms (ESP8266, RP2040, Zephyr)
+// TODO: Zephyr may have multiple threads (work queues, etc.) but uses this single-task path.
+// Logging calls are NOT thread-safe: global_recursion_guard_ is a plain bool and tx_buffer_ has no locking.
+// Not a problem in practice yet since Zephyr has no API support (logs are console-only).
 void HOT Logger::log_vprintf_(uint8_t level, const char *tag, int line, const char *format, va_list args) {  // NOLINT
   if (level > this->level_for(tag) || global_recursion_guard_)
     return;
-
-  this->log_message_to_buffer_and_send_(global_recursion_guard_, level, tag, line, format, args);
+#ifdef USE_ZEPHYR
+  char tmp[MAX_POINTER_REPRESENTATION];
+  this->log_message_to_buffer_and_send_(global_recursion_guard_, level, tag, line, format, args,
+                                        this->get_thread_name_(tmp));
+#else  // Other single-task platforms don't have thread names, so pass nullptr
+  this->log_message_to_buffer_and_send_(global_recursion_guard_, level, tag, line, format, args, nullptr);
+#endif
 }
 #endif  // USE_ESP32 / USE_HOST / USE_LIBRETINY
 
@@ -129,7 +136,7 @@ void Logger::log_vprintf_(uint8_t level, const char *tag, int line, const __Flas
   if (level > this->level_for(tag) || global_recursion_guard_)
     return;
 
-  this->log_message_to_buffer_and_send_(global_recursion_guard_, level, tag, line, format, args);
+  this->log_message_to_buffer_and_send_(global_recursion_guard_, level, tag, line, format, args, nullptr);
 }
 #endif  // USE_STORE_LOG_STR_IN_FLASH
 

esphome/components/logger/logger.h

@@ -2,6 +2,7 @@
 
 #include <cstdarg>
 #include <map>
+#include <span>
 #include <type_traits>
 #if defined(USE_ESP32) || defined(USE_HOST)
 #include <pthread.h>
@@ -124,6 +125,10 @@ static constexpr uint16_t MAX_HEADER_SIZE = 128;
 // "0x" + 2 hex digits per byte + '\0'
 static constexpr size_t MAX_POINTER_REPRESENTATION = 2 + sizeof(void *) * 2 + 1;
 
+// Stack buffer size for retrieving thread/task names from the OS
+// macOS allows up to 64 bytes, Linux up to 16
+static constexpr size_t THREAD_NAME_BUF_SIZE = 64;
+
 // Buffer wrapper for log formatting functions
 struct LogBuffer {
   char *data;
@@ -408,34 +413,24 @@ class Logger : public Component {
 
 #if defined(USE_ESP32) || defined(USE_HOST) || defined(USE_LIBRETINY)
   // Handles non-main thread logging only (~0.1% of calls)
-#if defined(USE_ESP32) || defined(USE_LIBRETINY)
-  // ESP32/LibreTiny: Pass task handle to avoid calling xTaskGetCurrentTaskHandle() twice
+  // thread_name is resolved by the caller from the task handle, avoiding redundant lookups
   void log_vprintf_non_main_thread_(uint8_t level, const char *tag, int line, const char *format, va_list args,
-                                    TaskHandle_t current_task);
-#else  // USE_HOST
-  // Host: No task handle parameter needed (not used in send_message_thread_safe)
-  void log_vprintf_non_main_thread_(uint8_t level, const char *tag, int line, const char *format, va_list args);
-#endif
+                                    const char *thread_name);
 #endif
   void process_messages_();
   void write_msg_(const char *msg, uint16_t len);
 
   // Format a log message with printf-style arguments and write it to a buffer with header, footer, and null terminator
+  // thread_name: name of the calling thread/task, or nullptr for main task (callers already know which task they're on)
   inline void HOT format_log_to_buffer_with_terminator_(uint8_t level, const char *tag, int line, const char *format,
-                                                        va_list args, LogBuffer &buf) {
-#if defined(USE_ESP32) || defined(USE_LIBRETINY) || defined(USE_HOST)
-    buf.write_header(level, tag, line, this->get_thread_name_());
-#elif defined(USE_ZEPHYR)
-    char tmp[MAX_POINTER_REPRESENTATION];
-    buf.write_header(level, tag, line, this->get_thread_name_(tmp));
-#else
-    buf.write_header(level, tag, line, nullptr);
-#endif
+                                                        va_list args, LogBuffer &buf, const char *thread_name) {
+    buf.write_header(level, tag, line, thread_name);
     buf.format_body(format, args);
   }
 
 #ifdef USE_STORE_LOG_STR_IN_FLASH
   // Format a log message with flash string format and write it to a buffer with header, footer, and null terminator
+  // ESP8266-only (single-task), thread_name is always nullptr
   inline void HOT format_log_to_buffer_with_terminator_P_(uint8_t level, const char *tag, int line,
                                                           const __FlashStringHelper *format, va_list args,
                                                           LogBuffer &buf) {
@@ -466,9 +461,10 @@ class Logger : public Component {
 
   // Helper to format and send a log message to both console and listeners
   // Template handles both const char* (RAM) and __FlashStringHelper* (flash) format strings
+  // thread_name: name of the calling thread/task, or nullptr for main task
   template<typename FormatType>
   inline void HOT log_message_to_buffer_and_send_(bool &recursion_guard, uint8_t level, const char *tag, int line,
-                                                  FormatType format, va_list args) {
+                                                  FormatType format, va_list args, const char *thread_name) {
     RecursionGuard guard(recursion_guard);
     LogBuffer buf{this->tx_buffer_, this->tx_buffer_size_};
 #ifdef USE_STORE_LOG_STR_IN_FLASH
@@ -477,7 +473,7 @@ class Logger : public Component {
     } else
 #endif
     {
-      this->format_log_to_buffer_with_terminator_(level, tag, line, format, args, buf);
+      this->format_log_to_buffer_with_terminator_(level, tag, line, format, args, buf, thread_name);
     }
     this->notify_listeners_(level, tag, buf);
     this->write_log_buffer_to_console_(buf);
@@ -565,37 +561,57 @@ class Logger : public Component {
   bool global_recursion_guard_{false};  // Simple global recursion guard for single-task platforms
 #endif
 
-#if defined(USE_ESP32) || defined(USE_LIBRETINY) || defined(USE_ZEPHYR)
-  const char *HOT get_thread_name_(
-#ifdef USE_ZEPHYR
-      char *buff
+  // --- get_thread_name_ overloads (per-platform) ---
+
+#if defined(USE_ESP32) || defined(USE_LIBRETINY)
+  // Primary overload - takes a task handle directly to avoid redundant xTaskGetCurrentTaskHandle() calls
+  // when the caller already has the handle (e.g. from the main task check in log_vprintf_)
+  const char *get_thread_name_(TaskHandle_t task) {
+    if (task == this->main_task_) {
+      return nullptr;  // Main task
+    }
+#if defined(USE_ESP32)
+    return pcTaskGetName(task);
+#elif defined(USE_LIBRETINY)
+    return pcTaskGetTaskName(task);
 #endif
-  ) {
-#ifdef USE_ZEPHYR
+  }
+
+  // Convenience overload - gets the current task handle and delegates
+  const char *HOT get_thread_name_() { return this->get_thread_name_(xTaskGetCurrentTaskHandle()); }
+
+#elif defined(USE_HOST)
+  // Takes a caller-provided buffer for the thread name (stack-allocated for thread safety)
+  const char *HOT get_thread_name_(std::span<char> buff) {
+    pthread_t current_thread = pthread_self();
+    if (pthread_equal(current_thread, main_thread_)) {
+      return nullptr;  // Main thread
+    }
+    // For non-main threads, get the thread name into the caller-provided buffer
+    if (pthread_getname_np(current_thread, buff.data(), buff.size()) == 0) {
+      return buff.data();
+    }
+    return nullptr;
+  }
+
+#elif defined(USE_ZEPHYR)
+  const char *HOT get_thread_name_(std::span<char> buff) {
     k_tid_t current_task = k_current_get();
-#else
-    TaskHandle_t current_task = xTaskGetCurrentTaskHandle();
-#endif
     if (current_task == main_task_) {
       return nullptr;  // Main task
-    } else {
-#if defined(USE_ESP32)
-      return pcTaskGetName(current_task);
-#elif defined(USE_LIBRETINY)
-      return pcTaskGetTaskName(current_task);
-#elif defined(USE_ZEPHYR)
-      const char *name = k_thread_name_get(current_task);
-      if (name) {
-        // zephyr print task names only if debug component is present
-        return name;
-      }
-      std::snprintf(buff, MAX_POINTER_REPRESENTATION, "%p", current_task);
-      return buff;
-#endif
     }
+    const char *name = k_thread_name_get(current_task);
+    if (name) {
+      // zephyr print task names only if debug component is present
+      return name;
+    }
+    std::snprintf(buff.data(), buff.size(), "%p", current_task);
+    return buff.data();
   }
 #endif
 
+  // --- Non-main task recursion guards (per-platform) ---
+
 #if defined(USE_ESP32) || defined(USE_HOST)
   // RAII guard for non-main task recursion using pthread TLS
   class NonMainTaskRecursionGuard {
@@ -635,22 +651,6 @@ class Logger : public Component {
   inline RecursionGuard make_non_main_task_guard_() { return RecursionGuard(non_main_task_recursion_guard_); }
 #endif
 
-#ifdef USE_HOST
-  const char *HOT get_thread_name_() {
-    pthread_t current_thread = pthread_self();
-    if (pthread_equal(current_thread, main_thread_)) {
-      return nullptr;  // Main thread
-    }
-    // For non-main threads, return the thread name
-    // We store it in thread-local storage to avoid allocation
-    static thread_local char thread_name_buf[32];
-    if (pthread_getname_np(current_thread, thread_name_buf, sizeof(thread_name_buf)) == 0) {
-      return thread_name_buf;
-    }
-    return nullptr;
-  }
-#endif
-
 #if defined(USE_ESP32) || defined(USE_LIBRETINY)
   // Disable loop when task buffer is empty (with USB CDC check on ESP32)
   inline void disable_loop_when_buffer_empty_() {

esphome/components/logger/logger_zephyr.cpp

@@ -68,7 +68,7 @@ void HOT Logger::write_msg_(const char *msg, uint16_t len) {
 #ifdef CONFIG_PRINTK
   // Requires the debug component and an active SWD connection.
   // It is used for pyocd rtt -t nrf52840
-  k_str_out(const_cast<char *>(msg), len);
+  printk("%.*s", static_cast<int>(len), msg);
 #endif
   if (this->uart_dev_ == nullptr) {
     return;

esphome/components/logger/task_log_buffer_esp32.cpp

@@ -59,7 +59,7 @@ void TaskLogBuffer::release_message_main_loop(void *token) {
   last_processed_counter_ = message_counter_.load(std::memory_order_relaxed);
 }
 
-bool TaskLogBuffer::send_message_thread_safe(uint8_t level, const char *tag, uint16_t line, TaskHandle_t task_handle,
+bool TaskLogBuffer::send_message_thread_safe(uint8_t level, const char *tag, uint16_t line, const char *thread_name,
                                              const char *format, va_list args) {
   // First, calculate the exact length needed using a null buffer (no actual writing)
   va_list args_copy;
@@ -95,7 +95,6 @@ bool TaskLogBuffer::send_message_thread_safe(uint8_t level, const char *tag, uin
   // Store the thread name now instead of waiting until main loop processing
   // This avoids crashes if the task completes or is deleted between when this message
   // is enqueued and when it's processed by the main loop
-  const char *thread_name = pcTaskGetName(task_handle);
   if (thread_name != nullptr) {
     strncpy(msg->thread_name, thread_name, sizeof(msg->thread_name) - 1);
     msg->thread_name[sizeof(msg->thread_name) - 1] = '\0';  // Ensure null termination

esphome/components/logger/task_log_buffer_esp32.h

@@ -58,7 +58,7 @@ class TaskLogBuffer {
   void release_message_main_loop(void *token);
 
   // Thread-safe - send a message to the ring buffer from any thread
-  bool send_message_thread_safe(uint8_t level, const char *tag, uint16_t line, TaskHandle_t task_handle,
+  bool send_message_thread_safe(uint8_t level, const char *tag, uint16_t line, const char *thread_name,
                                 const char *format, va_list args);
 
   // Check if there are messages ready to be processed using an atomic counter for performance

esphome/components/logger/task_log_buffer_host.cpp

@@ -70,8 +70,8 @@ void TaskLogBufferHost::commit_write_slot_(int slot_index) {
   }
 }
 
-bool TaskLogBufferHost::send_message_thread_safe(uint8_t level, const char *tag, uint16_t line, const char *format,
-                                                 va_list args) {
+bool TaskLogBufferHost::send_message_thread_safe(uint8_t level, const char *tag, uint16_t line, const char *thread_name,
+                                                 const char *format, va_list args) {
   // Acquire a slot
   int slot_index = this->acquire_write_slot_();
   if (slot_index < 0) {
@@ -85,11 +85,9 @@ bool TaskLogBufferHost::send_message_thread_safe(uint8_t level, const char *tag,
   msg.tag = tag;
   msg.line = line;
 
-  // Get thread name using pthread
-  char thread_name_buf[LogMessage::MAX_THREAD_NAME_SIZE];
-  // pthread_getname_np works the same on Linux and macOS
-  if (pthread_getname_np(pthread_self(), thread_name_buf, sizeof(thread_name_buf)) == 0) {
-    strncpy(msg.thread_name, thread_name_buf, sizeof(msg.thread_name) - 1);
+  // Store the thread name now to avoid crashes if thread exits before processing
+  if (thread_name != nullptr) {
+    strncpy(msg.thread_name, thread_name, sizeof(msg.thread_name) - 1);
     msg.thread_name[sizeof(msg.thread_name) - 1] = '\0';
   } else {
     msg.thread_name[0] = '\0';

esphome/components/logger/task_log_buffer_host.h

@@ -86,7 +86,8 @@ class TaskLogBufferHost {
 
   // Thread-safe - send a message to the buffer from any thread
   // Returns true if message was queued, false if buffer is full
-  bool send_message_thread_safe(uint8_t level, const char *tag, uint16_t line, const char *format, va_list args);
+  bool send_message_thread_safe(uint8_t level, const char *tag, uint16_t line, const char *thread_name,
+                                const char *format, va_list args);
 
   // Check if there are messages ready to be processed
   inline bool HOT has_messages() const {

esphome/components/logger/task_log_buffer_libretiny.cpp

@@ -101,7 +101,7 @@ void TaskLogBufferLibreTiny::release_message_main_loop() {
 }
 
 bool TaskLogBufferLibreTiny::send_message_thread_safe(uint8_t level, const char *tag, uint16_t line,
-                                                      TaskHandle_t task_handle, const char *format, va_list args) {
+                                                      const char *thread_name, const char *format, va_list args) {
   // First, calculate the exact length needed using a null buffer (no actual writing)
   va_list args_copy;
   va_copy(args_copy, args);
@@ -162,7 +162,6 @@ bool TaskLogBufferLibreTiny::send_message_thread_safe(uint8_t level, const char
   msg->line = line;
 
   // Store the thread name now to avoid crashes if task is deleted before processing
-  const char *thread_name = pcTaskGetTaskName(task_handle);
   if (thread_name != nullptr) {
     strncpy(msg->thread_name, thread_name, sizeof(msg->thread_name) - 1);
     msg->thread_name[sizeof(msg->thread_name) - 1] = '\0';

esphome/components/logger/task_log_buffer_libretiny.h

@@ -70,7 +70,7 @@ class TaskLogBufferLibreTiny {
   void release_message_main_loop();
 
   // Thread-safe - send a message to the buffer from any thread
-  bool send_message_thread_safe(uint8_t level, const char *tag, uint16_t line, TaskHandle_t task_handle,
+  bool send_message_thread_safe(uint8_t level, const char *tag, uint16_t line, const char *thread_name,
                                 const char *format, va_list args);
 
   // Fast check using volatile counter - no lock needed

esphome/components/lps22/lps22.cpp

@@ -38,22 +38,29 @@ void LPS22Component::dump_config() {
   LOG_UPDATE_INTERVAL(this);
 }
 
+static constexpr uint32_t INTERVAL_READ = 0;
+
 void LPS22Component::update() {
   uint8_t value = 0x00;
   this->read_register(CTRL_REG2, &value, 1);
   value |= CTRL_REG2_ONE_SHOT_MASK;
   this->write_register(CTRL_REG2, &value, 1);
-  this->set_retry(READ_INTERVAL, READ_ATTEMPTS, [this](uint8_t _) { return this->try_read_(); });
+  this->read_attempts_remaining_ = READ_ATTEMPTS;
+  this->set_interval(INTERVAL_READ, READ_INTERVAL, [this]() { this->try_read_(); });
 }
 
-RetryResult LPS22Component::try_read_() {
+void LPS22Component::try_read_() {
   uint8_t value = 0x00;
   this->read_register(STATUS, &value, 1);
   const uint8_t expected_status_mask = STATUS_T_DA_MASK | STATUS_P_DA_MASK;
   if ((value & expected_status_mask) != expected_status_mask) {
     ESP_LOGD(TAG, "STATUS not ready: %x", value);
-    return RetryResult::RETRY;
+    if (--this->read_attempts_remaining_ == 0) {
+      this->cancel_interval(INTERVAL_READ);
+    }
+    return;
   }
+  this->cancel_interval(INTERVAL_READ);
 
   if (this->temperature_sensor_ != nullptr) {
     uint8_t t_buf[2]{0};
@@ -68,7 +75,6 @@ RetryResult LPS22Component::try_read_() {
     uint32_t p_lsb = encode_uint24(p_buf[2], p_buf[1], p_buf[0]);
     this->pressure_sensor_->publish_state(PRESSURE_SCALE * static_cast<float>(p_lsb));
   }
-  return RetryResult::DONE;
 }
 
 }  // namespace lps22

esphome/components/lps22/lps22.h

@@ -17,10 +17,11 @@ class LPS22Component : public sensor::Sensor, public PollingComponent, public i2
   void dump_config() override;
 
  protected:
+  void try_read_();
+
   sensor::Sensor *temperature_sensor_{nullptr};
   sensor::Sensor *pressure_sensor_{nullptr};
-
-  RetryResult try_read_();
+  uint8_t read_attempts_remaining_{0};
 };
 
 }  // namespace lps22

esphome/components/lvgl/schemas.py

@@ -436,6 +436,7 @@ def container_schema(widget_type: WidgetType, extras=None):
     schema = schema.extend(widget_type.schema)
 
     def validator(value):
+        value = value or {}
         return append_layout_schema(schema, value)(value)
 
     return validator

esphome/components/mipi_dsi/models/waveshare.py

@@ -120,3 +120,101 @@ DriverChip(
         (0xB2, 0x10),
     ],
 )
+
+DriverChip(
+    "WAVESHARE-ESP32-P4-WIFI6-TOUCH-LCD-3.4C",
+    height=800,
+    width=800,
+    hsync_back_porch=20,
+    hsync_pulse_width=20,
+    hsync_front_porch=40,
+    vsync_back_porch=12,
+    vsync_pulse_width=4,
+    vsync_front_porch=24,
+    pclk_frequency="80MHz",
+    lane_bit_rate="1.5Gbps",
+    swap_xy=cv.UNDEFINED,
+    color_order="RGB",
+    initsequence=[
+        (0xE0, 0x00),  # select userpage
+        (0xE1, 0x93), (0xE2, 0x65), (0xE3, 0xF8),
+        (0x80, 0x01),  # Select number of lanes (2)
+        (0xE0, 0x01),  # select page 1
+        (0x00, 0x00), (0x01, 0x41), (0x03, 0x10), (0x04, 0x44), (0x17, 0x00), (0x18, 0xD0), (0x19, 0x00), (0x1A, 0x00),
+        (0x1B, 0xD0), (0x1C, 0x00), (0x24, 0xFE), (0x35, 0x26), (0x37, 0x09), (0x38, 0x04), (0x39, 0x08), (0x3A, 0x0A),
+        (0x3C, 0x78), (0x3D, 0xFF), (0x3E, 0xFF), (0x3F, 0xFF), (0x40, 0x00), (0x41, 0x64), (0x42, 0xC7), (0x43, 0x18),
+        (0x44, 0x0B), (0x45, 0x14), (0x55, 0x02), (0x57, 0x49), (0x59, 0x0A), (0x5A, 0x1B), (0x5B, 0x19), (0x5D, 0x7F),
+        (0x5E, 0x56), (0x5F, 0x43), (0x60, 0x37), (0x61, 0x33), (0x62, 0x25), (0x63, 0x2A), (0x64, 0x16), (0x65, 0x30),
+        (0x66, 0x2F), (0x67, 0x32), (0x68, 0x53), (0x69, 0x43), (0x6A, 0x4C), (0x6B, 0x40), (0x6C, 0x3D), (0x6D, 0x31),
+        (0x6E, 0x20), (0x6F, 0x0F), (0x70, 0x7F), (0x71, 0x56), (0x72, 0x43), (0x73, 0x37), (0x74, 0x33), (0x75, 0x25),
+        (0x76, 0x2A), (0x77, 0x16), (0x78, 0x30), (0x79, 0x2F), (0x7A, 0x32), (0x7B, 0x53), (0x7C, 0x43), (0x7D, 0x4C),
+        (0x7E, 0x40), (0x7F, 0x3D), (0x80, 0x31), (0x81, 0x20), (0x82, 0x0F),
+        (0xE0, 0x02),  # select page 2
+        (0x00, 0x5F), (0x01, 0x5F), (0x02, 0x5E), (0x03, 0x5E), (0x04, 0x50), (0x05, 0x48), (0x06, 0x48), (0x07, 0x4A),
+        (0x08, 0x4A), (0x09, 0x44), (0x0A, 0x44), (0x0B, 0x46), (0x0C, 0x46), (0x0D, 0x5F), (0x0E, 0x5F), (0x0F, 0x57),
+        (0x10, 0x57), (0x11, 0x77), (0x12, 0x77), (0x13, 0x40), (0x14, 0x42), (0x15, 0x5F), (0x16, 0x5F), (0x17, 0x5F),
+        (0x18, 0x5E), (0x19, 0x5E), (0x1A, 0x50), (0x1B, 0x49), (0x1C, 0x49), (0x1D, 0x4B), (0x1E, 0x4B), (0x1F, 0x45),
+        (0x20, 0x45), (0x21, 0x47), (0x22, 0x47), (0x23, 0x5F), (0x24, 0x5F), (0x25, 0x57), (0x26, 0x57), (0x27, 0x77),
+        (0x28, 0x77), (0x29, 0x41), (0x2A, 0x43), (0x2B, 0x5F), (0x2C, 0x1E), (0x2D, 0x1E), (0x2E, 0x1F), (0x2F, 0x1F),
+        (0x30, 0x10), (0x31, 0x07), (0x32, 0x07), (0x33, 0x05), (0x34, 0x05), (0x35, 0x0B), (0x36, 0x0B), (0x37, 0x09),
+        (0x38, 0x09), (0x39, 0x1F), (0x3A, 0x1F), (0x3B, 0x17), (0x3C, 0x17), (0x3D, 0x17), (0x3E, 0x17), (0x3F, 0x03),
+        (0x40, 0x01), (0x41, 0x1F), (0x42, 0x1E), (0x43, 0x1E), (0x44, 0x1F), (0x45, 0x1F), (0x46, 0x10), (0x47, 0x06),
+        (0x48, 0x06), (0x49, 0x04), (0x4A, 0x04), (0x4B, 0x0A), (0x4C, 0x0A), (0x4D, 0x08), (0x4E, 0x08), (0x4F, 0x1F),
+        (0x50, 0x1F), (0x51, 0x17), (0x52, 0x17), (0x53, 0x17), (0x54, 0x17), (0x55, 0x02), (0x56, 0x00), (0x57, 0x1F),
+        (0xE0, 0x02),  # select page 2
+        (0x58, 0x40), (0x59, 0x00), (0x5A, 0x00), (0x5B, 0x30), (0x5C, 0x01), (0x5D, 0x30), (0x5E, 0x01), (0x5F, 0x02),
+        (0x60, 0x30), (0x61, 0x03), (0x62, 0x04), (0x63, 0x04), (0x64, 0xA6), (0x65, 0x43), (0x66, 0x30), (0x67, 0x73),
+        (0x68, 0x05), (0x69, 0x04), (0x6A, 0x7F), (0x6B, 0x08), (0x6C, 0x00), (0x6D, 0x04), (0x6E, 0x04), (0x6F, 0x88),
+        (0x75, 0xD9), (0x76, 0x00), (0x77, 0x33), (0x78, 0x43),
+        (0xE0, 0x00),  # select userpage
+    ],
+)
+
+DriverChip(
+    "WAVESHARE-ESP32-P4-WIFI6-TOUCH-LCD-4C",
+    height=720,
+    width=720,
+    hsync_back_porch=20,
+    hsync_pulse_width=20,
+    hsync_front_porch=40,
+    vsync_back_porch=12,
+    vsync_pulse_width=4,
+    vsync_front_porch=24,
+    pclk_frequency="80MHz",
+    lane_bit_rate="1.5Gbps",
+    swap_xy=cv.UNDEFINED,
+    color_order="RGB",
+    initsequence=[
+        (0xE0, 0x00),  # select userpage
+        (0xE1, 0x93), (0xE2, 0x65), (0xE3, 0xF8),
+        (0x80, 0x01),  # Select number of lanes (2)
+        (0xE0, 0x01),  # select page 1
+        (0x00, 0x00), (0x01, 0x41), (0x03, 0x10), (0x04, 0x44), (0x17, 0x00), (0x18, 0xD0), (0x19, 0x00), (0x1A, 0x00),
+        (0x1B, 0xD0), (0x1C, 0x00), (0x24, 0xFE), (0x35, 0x26), (0x37, 0x09), (0x38, 0x04), (0x39, 0x08), (0x3A, 0x0A),
+        (0x3C, 0x78), (0x3D, 0xFF), (0x3E, 0xFF), (0x3F, 0xFF), (0x40, 0x04), (0x41, 0x64), (0x42, 0xC7), (0x43, 0x18),
+        (0x44, 0x0B), (0x45, 0x14), (0x55, 0x02), (0x57, 0x49), (0x59, 0x0A), (0x5A, 0x1B), (0x5B, 0x19), (0x5D, 0x7F),
+        (0x5E, 0x56), (0x5F, 0x43), (0x60, 0x37), (0x61, 0x33), (0x62, 0x25), (0x63, 0x2A), (0x64, 0x16), (0x65, 0x30),
+        (0x66, 0x2F), (0x67, 0x32), (0x68, 0x53), (0x69, 0x43), (0x6A, 0x4C), (0x6B, 0x40), (0x6C, 0x3D), (0x6D, 0x31),
+        (0x6E, 0x20), (0x6F, 0x0F), (0x70, 0x7F), (0x71, 0x56), (0x72, 0x43), (0x73, 0x37), (0x74, 0x33), (0x75, 0x25),
+        (0x76, 0x2A), (0x77, 0x16), (0x78, 0x30), (0x79, 0x2F), (0x7A, 0x32), (0x7B, 0x53), (0x7C, 0x43), (0x7D, 0x4C),
+        (0x7E, 0x40), (0x7F, 0x3D), (0x80, 0x31), (0x81, 0x20), (0x82, 0x0F),
+        (0xE0, 0x02),  # select page 2
+        (0x00, 0x5F), (0x01, 0x5F), (0x02, 0x5E), (0x03, 0x5E), (0x04, 0x50), (0x05, 0x48), (0x06, 0x48), (0x07, 0x4A),
+        (0x08, 0x4A), (0x09, 0x44), (0x0A, 0x44), (0x0B, 0x46), (0x0C, 0x46), (0x0D, 0x5F), (0x0E, 0x5F), (0x0F, 0x57),
+        (0x10, 0x57), (0x11, 0x77), (0x12, 0x77), (0x13, 0x40), (0x14, 0x42), (0x15, 0x5F), (0x16, 0x5F), (0x17, 0x5F),
+        (0x18, 0x5E), (0x19, 0x5E), (0x1A, 0x50), (0x1B, 0x49), (0x1C, 0x49), (0x1D, 0x4B), (0x1E, 0x4B), (0x1F, 0x45),
+        (0x20, 0x45), (0x21, 0x47), (0x22, 0x47), (0x23, 0x5F), (0x24, 0x5F), (0x25, 0x57), (0x26, 0x57), (0x27, 0x77),
+        (0x28, 0x77), (0x29, 0x41), (0x2A, 0x43), (0x2B, 0x5F), (0x2C, 0x1E), (0x2D, 0x1E), (0x2E, 0x1F), (0x2F, 0x1F),
+        (0x30, 0x10), (0x31, 0x07), (0x32, 0x07), (0x33, 0x05), (0x34, 0x05), (0x35, 0x0B), (0x36, 0x0B), (0x37, 0x09),
+        (0x38, 0x09), (0x39, 0x1F), (0x3A, 0x1F), (0x3B, 0x17), (0x3C, 0x17), (0x3D, 0x17), (0x3E, 0x17), (0x3F, 0x03),
+        (0x40, 0x01), (0x41, 0x1F), (0x42, 0x1E), (0x43, 0x1E), (0x44, 0x1F), (0x45, 0x1F), (0x46, 0x10), (0x47, 0x06),
+        (0x48, 0x06), (0x49, 0x04), (0x4A, 0x04), (0x4B, 0x0A), (0x4C, 0x0A), (0x4D, 0x08), (0x4E, 0x08), (0x4F, 0x1F),
+        (0x50, 0x1F), (0x51, 0x17), (0x52, 0x17), (0x53, 0x17), (0x54, 0x17), (0x55, 0x02), (0x56, 0x00), (0x57, 0x1F),
+        (0xE0, 0x02),  # select page 2
+        (0x58, 0x40), (0x59, 0x00), (0x5A, 0x00), (0x5B, 0x30), (0x5C, 0x01), (0x5D, 0x30), (0x5E, 0x01), (0x5F, 0x02),
+        (0x60, 0x30), (0x61, 0x03), (0x62, 0x04), (0x63, 0x04), (0x64, 0xA6), (0x65, 0x43), (0x66, 0x30), (0x67, 0x73),
+        (0x68, 0x05), (0x69, 0x04), (0x6A, 0x7F), (0x6B, 0x08), (0x6C, 0x00), (0x6D, 0x04), (0x6E, 0x04), (0x6F, 0x88),
+        (0x75, 0xD9), (0x76, 0x00), (0x77, 0x33), (0x78, 0x43),
+        (0xE0, 0x00),  # select userpage
+    ]
+)

esphome/components/mipi_rgb/display.py

@@ -11,7 +11,7 @@ from esphome.components.const import (
     CONF_DRAW_ROUNDING,
 )
 from esphome.components.display import CONF_SHOW_TEST_CARD
-from esphome.components.esp32 import VARIANT_ESP32S3, only_on_variant
+from esphome.components.esp32 import VARIANT_ESP32P4, VARIANT_ESP32S3, only_on_variant
 from esphome.components.mipi import (
     COLOR_ORDERS,
     CONF_DE_PIN,
@@ -225,7 +225,7 @@ def _config_schema(config):
     return cv.All(
         schema,
         cv.only_on_esp32,
-        only_on_variant(supported=[VARIANT_ESP32S3]),
+        only_on_variant(supported=[VARIANT_ESP32S3, VARIANT_ESP32P4]),
     )(config)
 
 

esphome/components/mipi_rgb/mipi_rgb.cpp

@@ -1,4 +1,4 @@
-#ifdef USE_ESP32_VARIANT_ESP32S3
+#if defined(USE_ESP32_VARIANT_ESP32S3) || defined(USE_ESP32_VARIANT_ESP32P4)
 #include "mipi_rgb.h"
 #include "esphome/core/gpio.h"
 #include "esphome/core/hal.h"
@@ -401,4 +401,4 @@ void MipiRgb::dump_config() {
 
 }  // namespace mipi_rgb
 }  // namespace esphome
-#endif  // USE_ESP32_VARIANT_ESP32S3
+#endif  // defined(USE_ESP32_VARIANT_ESP32S3) || defined(USE_ESP32_VARIANT_ESP32P4)

esphome/components/mipi_rgb/mipi_rgb.h

@@ -1,6 +1,6 @@
 #pragma once
 
-#ifdef USE_ESP32_VARIANT_ESP32S3
+#if defined(USE_ESP32_VARIANT_ESP32S3) || defined(USE_ESP32_VARIANT_ESP32P4)
 #include "esphome/core/gpio.h"
 #include "esphome/components/display/display.h"
 #include "esp_lcd_panel_ops.h"
@@ -28,7 +28,7 @@ class MipiRgb : public display::Display {
   void setup() override;
   void loop() override;
   void update() override;
-  void fill(Color color);
+  void fill(Color color) override;
   void draw_pixels_at(int x_start, int y_start, int w, int h, const uint8_t *ptr, display::ColorOrder order,
                       display::ColorBitness bitness, bool big_endian, int x_offset, int y_offset, int x_pad) override;
   void write_to_display_(int x_start, int y_start, int w, int h, const uint8_t *ptr, int x_offset, int y_offset,
@@ -115,7 +115,7 @@ class MipiRgbSpi : public MipiRgb,
   void write_command_(uint8_t value);
   void write_data_(uint8_t value);
   void write_init_sequence_();
-  void dump_config();
+  void dump_config() override;
 
   GPIOPin *dc_pin_{nullptr};
   std::vector<uint8_t> init_sequence_;

esphome/components/mixer/speaker/__init__.py

@@ -1,6 +1,6 @@
 from esphome import automation
 import esphome.codegen as cg
-from esphome.components import audio, esp32, speaker
+from esphome.components import audio, esp32, socket, speaker
 import esphome.config_validation as cv
 from esphome.const import (
     CONF_BITS_PER_SAMPLE,
@@ -61,7 +61,7 @@ def _set_stream_limits(config):
 def _validate_source_speaker(config):
     fconf = fv.full_config.get()
 
-    # Get ID for the output speaker and add it to the source speakrs config to easily inherit properties
+    # Get ID for the output speaker and add it to the source speakers config to easily inherit properties
     path = fconf.get_path_for_id(config[CONF_ID])[:-3]
     path.append(CONF_OUTPUT_SPEAKER)
     output_speaker_id = fconf.get_config_for_path(path)
@@ -111,6 +111,9 @@ FINAL_VALIDATE_SCHEMA = cv.All(
 
 
 async def to_code(config):
+    # Enable wake_loop_threadsafe for immediate command processing from other tasks
+    socket.require_wake_loop_threadsafe()
+
     var = cg.new_Pvariable(config[CONF_ID])
     await cg.register_component(var, config)
 
@@ -127,6 +130,9 @@ async def to_code(config):
                 "CONFIG_SPIRAM_ALLOW_STACK_EXTERNAL_MEMORY", True
             )
 
+    # Initialize FixedVector with exact count of source speakers
+    cg.add(var.init_source_speakers(len(config[CONF_SOURCE_SPEAKERS])))
+
     for speaker_config in config[CONF_SOURCE_SPEAKERS]:
         source_speaker = cg.new_Pvariable(speaker_config[CONF_ID])
 

esphome/components/mixer/speaker/automation.h

@@ -8,8 +8,8 @@
 namespace esphome {
 namespace mixer_speaker {
 template<typename... Ts> class DuckingApplyAction : public Action<Ts...>, public Parented<SourceSpeaker> {
-  TEMPLATABLE_VALUE(uint8_t, decibel_reduction)
-  TEMPLATABLE_VALUE(uint32_t, duration)
+  TEMPLATABLE_VALUE(uint8_t, decibel_reduction);
+  TEMPLATABLE_VALUE(uint32_t, duration);
   void play(const Ts &...x) override {
     this->parent_->apply_ducking(this->decibel_reduction_.value(x...), this->duration_.value(x...));
   }

esphome/components/mixer/speaker/mixer_speaker.cpp

@@ -2,11 +2,13 @@
 
 #ifdef USE_ESP32
 
+#include "esphome/core/application.h"
 #include "esphome/core/hal.h"
 #include "esphome/core/helpers.h"
 #include "esphome/core/log.h"
 
 #include <algorithm>
+#include <array>
 #include <cstring>
 
 namespace esphome {
@@ -14,6 +16,7 @@ namespace mixer_speaker {
 
 static const UBaseType_t MIXER_TASK_PRIORITY = 10;
 
+static const uint32_t STOPPING_TIMEOUT_MS = 5000;
 static const uint32_t TRANSFER_BUFFER_DURATION_MS = 50;
 static const uint32_t TASK_DELAY_MS = 25;
 
@@ -27,21 +30,53 @@ static const char *const TAG = "speaker_mixer";
 // Gives the Q15 fixed point scaling factor to reduce by 0 dB, 1dB, ..., 50 dB
 // dB to PCM scaling factor formula: floating_point_scale_factor = 2^(-db/6.014)
 // float to Q15 fixed point formula: q15_scale_factor = floating_point_scale_factor * 2^(15)
-static const std::vector<int16_t> DECIBEL_REDUCTION_TABLE = {
+static const std::array<int16_t, 51> DECIBEL_REDUCTION_TABLE = {
     32767, 29201, 26022, 23189, 20665, 18415, 16410, 14624, 13032, 11613, 10349, 9222, 8218, 7324, 6527, 5816, 5183,
     4619,  4116,  3668,  3269,  2913,  2596,  2313,  2061,  1837,  1637,  1459,  1300, 1158, 1032, 920,  820,  731,
     651,   580,   517,   461,   411,   366,   326,   291,   259,   231,   206,   183,  163,  146,  130,  116,  103};
 
-enum MixerEventGroupBits : uint32_t {
-  COMMAND_STOP = (1 << 0),  // stops the mixer task
-  STATE_STARTING = (1 << 10),
-  STATE_RUNNING = (1 << 11),
-  STATE_STOPPING = (1 << 12),
-  STATE_STOPPED = (1 << 13),
-  ERR_ESP_NO_MEM = (1 << 19),
-  ALL_BITS = 0x00FFFFFF,  // All valid FreeRTOS event group bits
+// Event bits for SourceSpeaker command processing
+enum SourceSpeakerEventBits : uint32_t {
+  SOURCE_SPEAKER_COMMAND_START = (1 << 0),
+  SOURCE_SPEAKER_COMMAND_STOP = (1 << 1),
+  SOURCE_SPEAKER_COMMAND_FINISH = (1 << 2),
 };
 
+// Event bits for mixer task control and state
+enum MixerTaskEventBits : uint32_t {
+  MIXER_TASK_COMMAND_START = (1 << 0),
+  MIXER_TASK_COMMAND_STOP = (1 << 1),
+  MIXER_TASK_STATE_STARTING = (1 << 10),
+  MIXER_TASK_STATE_RUNNING = (1 << 11),
+  MIXER_TASK_STATE_STOPPING = (1 << 12),
+  MIXER_TASK_STATE_STOPPED = (1 << 13),
+  MIXER_TASK_ERR_ESP_NO_MEM = (1 << 19),
+  MIXER_TASK_ALL_BITS = 0x00FFFFFF,  // All valid FreeRTOS event group bits
+};
+
+static inline uint32_t atomic_subtract_clamped(std::atomic<uint32_t> &var, uint32_t amount) {
+  uint32_t current = var.load(std::memory_order_acquire);
+  uint32_t subtracted = 0;
+  if (current > 0) {
+    uint32_t new_value;
+    do {
+      subtracted = std::min(amount, current);
+      new_value = current - subtracted;
+    } while (!var.compare_exchange_weak(current, new_value, std::memory_order_release, std::memory_order_acquire));
+  }
+  return subtracted;
+}
+
+static bool create_event_group(EventGroupHandle_t &event_group, Component *component) {
+  event_group = xEventGroupCreate();
+  if (event_group == nullptr) {
+    ESP_LOGE(TAG, "Failed to create event group");
+    component->mark_failed();
+    return false;
+  }
+  return true;
+}
+
 void SourceSpeaker::dump_config() {
   ESP_LOGCONFIG(TAG,
                 "Mixer Source Speaker\n"
@@ -55,22 +90,70 @@ void SourceSpeaker::dump_config() {
 }
 
 void SourceSpeaker::setup() {
-  this->parent_->get_output_speaker()->add_audio_output_callback([this](uint32_t new_frames, int64_t write_timestamp) {
-    // The SourceSpeaker may not have included any audio in the mixed output, so verify there were pending frames
-    uint32_t speakers_playback_frames = std::min(new_frames, this->pending_playback_frames_);
-    this->pending_playback_frames_ -= speakers_playback_frames;
+  if (!create_event_group(this->event_group_, this)) {
+    return;
+  }
 
-    if (speakers_playback_frames > 0) {
-      this->audio_output_callback_(speakers_playback_frames, write_timestamp);
+  // Start with loop disabled since we begin in STATE_STOPPED with no pending commands
+  this->disable_loop();
+
+  this->parent_->get_output_speaker()->add_audio_output_callback([this](uint32_t new_frames, int64_t write_timestamp) {
+    // First, drain the playback delay (frames in pipeline before this source started contributing)
+    uint32_t delay_to_drain = atomic_subtract_clamped(this->playback_delay_frames_, new_frames);
+    uint32_t remaining_frames = new_frames - delay_to_drain;
+
+    // Then, count towards this source's pending playback frames
+    if (remaining_frames > 0) {
+      uint32_t speakers_playback_frames = atomic_subtract_clamped(this->pending_playback_frames_, remaining_frames);
+      if (speakers_playback_frames > 0) {
+        this->audio_output_callback_(speakers_playback_frames, write_timestamp);
+      }
     }
   });
 }
 
 void SourceSpeaker::loop() {
+  uint32_t event_bits = xEventGroupGetBits(this->event_group_);
+
+  // Process commands with priority: STOP > FINISH > START
+  // This ensures stop commands take precedence over conflicting start commands
+  if (event_bits & SOURCE_SPEAKER_COMMAND_STOP) {
+    if (this->state_ == speaker::STATE_RUNNING) {
+      // Clear both STOP and START bits - stop takes precedence
+      xEventGroupClearBits(this->event_group_, SOURCE_SPEAKER_COMMAND_STOP | SOURCE_SPEAKER_COMMAND_START);
+      this->enter_stopping_state_();
+    } else if (this->state_ == speaker::STATE_STOPPED) {
+      // Already stopped, just clear the command bits
+      xEventGroupClearBits(this->event_group_, SOURCE_SPEAKER_COMMAND_STOP | SOURCE_SPEAKER_COMMAND_START);
+    }
+    // Leave bits set if transitioning states (STARTING/STOPPING) - will be processed once state allows
+  } else if (event_bits & SOURCE_SPEAKER_COMMAND_FINISH) {
+    if (this->state_ == speaker::STATE_RUNNING) {
+      xEventGroupClearBits(this->event_group_, SOURCE_SPEAKER_COMMAND_FINISH);
+      this->stop_gracefully_ = true;
+    } else if (this->state_ == speaker::STATE_STOPPED) {
+      // Already stopped, just clear the command bit
+      xEventGroupClearBits(this->event_group_, SOURCE_SPEAKER_COMMAND_FINISH);
+    }
+    // Leave bit set if transitioning states - will be processed once state allows
+  } else if (event_bits & SOURCE_SPEAKER_COMMAND_START) {
+    if (this->state_ == speaker::STATE_STOPPED) {
+      xEventGroupClearBits(this->event_group_, SOURCE_SPEAKER_COMMAND_START);
+      this->state_ = speaker::STATE_STARTING;
+    } else if (this->state_ == speaker::STATE_RUNNING) {
+      // Already running, just clear the command bit
+      xEventGroupClearBits(this->event_group_, SOURCE_SPEAKER_COMMAND_START);
+    }
+    // Leave bit set if transitioning states - will be processed once state allows
+  }
+  // Process state machine
   switch (this->state_) {
     case speaker::STATE_STARTING: {
       esp_err_t err = this->start_();
       if (err == ESP_OK) {
+        this->pending_playback_frames_.store(0, std::memory_order_release);  // reset pending playback frames
+        this->playback_delay_frames_.store(0, std::memory_order_release);    // reset playback delay
+        this->has_contributed_.store(false, std::memory_order_release);      // reset contribution tracking
         this->state_ = speaker::STATE_RUNNING;
         this->stop_gracefully_ = false;
         this->last_seen_data_ms_ = millis();
@@ -78,41 +161,62 @@ void SourceSpeaker::loop() {
       } else {
         switch (err) {
           case ESP_ERR_NO_MEM:
-            this->status_set_error(LOG_STR("Failed to start mixer: not enough memory"));
+            this->status_set_error(LOG_STR("Not enough memory"));
             break;
           case ESP_ERR_NOT_SUPPORTED:
-            this->status_set_error(LOG_STR("Failed to start mixer: unsupported bits per sample"));
+            this->status_set_error(LOG_STR("Unsupported bit depth"));
             break;
           case ESP_ERR_INVALID_ARG:
-            this->status_set_error(
-                LOG_STR("Failed to start mixer: audio stream isn't compatible with the other audio stream."));
+            this->status_set_error(LOG_STR("Incompatible audio streams"));
             break;
           case ESP_ERR_INVALID_STATE:
-            this->status_set_error(LOG_STR("Failed to start mixer: mixer task failed to start"));
+            this->status_set_error(LOG_STR("Task failed"));
             break;
           default:
-            this->status_set_error(LOG_STR("Failed to start mixer"));
+            this->status_set_error(LOG_STR("Failed"));
             break;
         }
 
-        this->state_ = speaker::STATE_STOPPING;
+        this->enter_stopping_state_();
       }
       break;
     }
     case speaker::STATE_RUNNING:
-      if (!this->transfer_buffer_->has_buffered_data()) {
+      if (!this->transfer_buffer_->has_buffered_data() &&
+          (this->pending_playback_frames_.load(std::memory_order_acquire) == 0)) {
+        // No audio data in buffer waiting to get mixed and no frames are pending playback
         if ((this->timeout_ms_.has_value() && ((millis() - this->last_seen_data_ms_) > this->timeout_ms_.value())) ||
             this->stop_gracefully_) {
-          this->state_ = speaker::STATE_STOPPING;
+          // Timeout exceeded or graceful stop requested
+          this->enter_stopping_state_();
         }
       }
       break;
-    case speaker::STATE_STOPPING:
-      this->stop_();
-      this->stop_gracefully_ = false;
-      this->state_ = speaker::STATE_STOPPED;
+    case speaker::STATE_STOPPING: {
+      if ((this->parent_->get_output_speaker()->get_pause_state()) ||
+          ((millis() - this->stopping_start_ms_) > STOPPING_TIMEOUT_MS)) {
+        // If parent speaker is paused or if the stopping timeout is exceeded, force stop the output speaker
+        this->parent_->get_output_speaker()->stop();
+      }
+
+      if (this->parent_->get_output_speaker()->is_stopped() ||
+          (this->pending_playback_frames_.load(std::memory_order_acquire) == 0)) {
+        // Output speaker is stopped OR all pending playback frames have played
+        this->pending_playback_frames_.store(0, std::memory_order_release);
+        this->stop_gracefully_ = false;
+
+        this->state_ = speaker::STATE_STOPPED;
+      }
       break;
+    }
     case speaker::STATE_STOPPED:
+      // Re-check event bits for any new commands that may have arrived
+      event_bits = xEventGroupGetBits(this->event_group_);
+      if (!(event_bits &
+            (SOURCE_SPEAKER_COMMAND_START | SOURCE_SPEAKER_COMMAND_STOP | SOURCE_SPEAKER_COMMAND_FINISH))) {
+        // No pending commands, disable loop to save CPU cycles
+        this->disable_loop();
+      }
       break;
   }
 }
@@ -122,17 +226,34 @@ size_t SourceSpeaker::play(const uint8_t *data, size_t length, TickType_t ticks_
     this->start();
   }
   size_t bytes_written = 0;
-  if (this->ring_buffer_.use_count() == 1) {
-    std::shared_ptr<RingBuffer> temp_ring_buffer = this->ring_buffer_.lock();
+  std::shared_ptr<RingBuffer> temp_ring_buffer = this->ring_buffer_.lock();
+  if (temp_ring_buffer.use_count() > 0) {
+    // Only write to the ring buffer if the reference is valid
     bytes_written = temp_ring_buffer->write_without_replacement(data, length, ticks_to_wait);
     if (bytes_written > 0) {
       this->last_seen_data_ms_ = millis();
     }
+  } else {
+    // Delay to avoid repeatedly hammering while waiting for the speaker to start
+    vTaskDelay(ticks_to_wait);
   }
   return bytes_written;
 }
 
-void SourceSpeaker::start() { this->state_ = speaker::STATE_STARTING; }
+void SourceSpeaker::send_command_(uint32_t command_bit, bool wake_loop) {
+  this->enable_loop_soon_any_context();
+  uint32_t event_bits = xEventGroupGetBits(this->event_group_);
+  if (!(event_bits & command_bit)) {
+    xEventGroupSetBits(this->event_group_, command_bit);
+#if defined(USE_SOCKET_SELECT_SUPPORT) && defined(USE_WAKE_LOOP_THREADSAFE)
+    if (wake_loop) {
+      App.wake_loop_threadsafe();
+    }
+#endif
+  }
+}
+
+void SourceSpeaker::start() { this->send_command_(SOURCE_SPEAKER_COMMAND_START, true); }
 
 esp_err_t SourceSpeaker::start_() {
   const size_t ring_buffer_size = this->audio_stream_info_.ms_to_bytes(this->buffer_duration_ms_);
@@ -143,35 +264,26 @@ esp_err_t SourceSpeaker::start_() {
     if (this->transfer_buffer_ == nullptr) {
       return ESP_ERR_NO_MEM;
     }
-    std::shared_ptr<RingBuffer> temp_ring_buffer;
 
-    if (!this->ring_buffer_.use_count()) {
+    std::shared_ptr<RingBuffer> temp_ring_buffer = this->ring_buffer_.lock();
+    if (!temp_ring_buffer) {
       temp_ring_buffer = RingBuffer::create(ring_buffer_size);
       this->ring_buffer_ = temp_ring_buffer;
     }
 
-    if (!this->ring_buffer_.use_count()) {
+    if (!temp_ring_buffer) {
       return ESP_ERR_NO_MEM;
     } else {
       this->transfer_buffer_->set_source(temp_ring_buffer);
     }
   }
 
-  this->pending_playback_frames_ = 0;  // reset
   return this->parent_->start(this->audio_stream_info_);
 }
 
-void SourceSpeaker::stop() {
-  if (this->state_ != speaker::STATE_STOPPED) {
-    this->state_ = speaker::STATE_STOPPING;
-  }
-}
+void SourceSpeaker::stop() { this->send_command_(SOURCE_SPEAKER_COMMAND_STOP); }
 
-void SourceSpeaker::stop_() {
-  this->transfer_buffer_.reset();  // deallocates the transfer buffer
-}
-
-void SourceSpeaker::finish() { this->stop_gracefully_ = true; }
+void SourceSpeaker::finish() { this->send_command_(SOURCE_SPEAKER_COMMAND_FINISH); }
 
 bool SourceSpeaker::has_buffered_data() const {
   return ((this->transfer_buffer_.use_count() > 0) && this->transfer_buffer_->has_buffered_data());
@@ -191,19 +303,16 @@ void SourceSpeaker::set_volume(float volume) {
 
 float SourceSpeaker::get_volume() { return this->parent_->get_output_speaker()->get_volume(); }
 
-size_t SourceSpeaker::process_data_from_source(TickType_t ticks_to_wait) {
-  if (!this->transfer_buffer_.use_count()) {
-    return 0;
-  }
-
+size_t SourceSpeaker::process_data_from_source(std::shared_ptr<audio::AudioSourceTransferBuffer> &transfer_buffer,
+                                               TickType_t ticks_to_wait) {
   // Store current offset, as these samples are already ducked
-  const size_t current_length = this->transfer_buffer_->available();
+  const size_t current_length = transfer_buffer->available();
 
-  size_t bytes_read = this->transfer_buffer_->transfer_data_from_source(ticks_to_wait);
+  size_t bytes_read = transfer_buffer->transfer_data_from_source(ticks_to_wait);
 
   uint32_t samples_to_duck = this->audio_stream_info_.bytes_to_samples(bytes_read);
   if (samples_to_duck > 0) {
-    int16_t *current_buffer = reinterpret_cast<int16_t *>(this->transfer_buffer_->get_buffer_start() + current_length);
+    int16_t *current_buffer = reinterpret_cast<int16_t *>(transfer_buffer->get_buffer_start() + current_length);
 
     duck_samples(current_buffer, samples_to_duck, &this->current_ducking_db_reduction_,
                  &this->ducking_transition_samples_remaining_, this->samples_per_ducking_step_,
@@ -215,10 +324,13 @@ size_t SourceSpeaker::process_data_from_source(TickType_t ticks_to_wait) {
 
 void SourceSpeaker::apply_ducking(uint8_t decibel_reduction, uint32_t duration) {
   if (this->target_ducking_db_reduction_ != decibel_reduction) {
+    // Start transition from the previous target (which becomes the new current level)
     this->current_ducking_db_reduction_ = this->target_ducking_db_reduction_;
 
     this->target_ducking_db_reduction_ = decibel_reduction;
 
+    // Calculate the number of intermediate dB steps for the transition timing.
+    // Subtract 1 because the first step is taken immediately after this calculation.
     uint8_t total_ducking_steps = 0;
     if (this->target_ducking_db_reduction_ > this->current_ducking_db_reduction_) {
       // The dB reduction level is increasing (which results in quieter audio)
@@ -234,7 +346,7 @@ void SourceSpeaker::apply_ducking(uint8_t decibel_reduction, uint32_t duration)
 
       this->samples_per_ducking_step_ = this->ducking_transition_samples_remaining_ / total_ducking_steps;
       this->ducking_transition_samples_remaining_ =
-          this->samples_per_ducking_step_ * total_ducking_steps;  // Adjust for integer division rounding
+          this->samples_per_ducking_step_ * total_ducking_steps;  // adjust for integer division rounding
 
       this->current_ducking_db_reduction_ += this->db_change_per_ducking_step_;
     } else {
@@ -293,6 +405,12 @@ void SourceSpeaker::duck_samples(int16_t *input_buffer, uint32_t input_samples_t
   }
 }
 
+void SourceSpeaker::enter_stopping_state_() {
+  this->state_ = speaker::STATE_STOPPING;
+  this->stopping_start_ms_ = millis();
+  this->transfer_buffer_.reset();
+}
+
 void MixerSpeaker::dump_config() {
   ESP_LOGCONFIG(TAG,
                 "Speaker Mixer:\n"
@@ -301,42 +419,74 @@ void MixerSpeaker::dump_config() {
 }
 
 void MixerSpeaker::setup() {
-  this->event_group_ = xEventGroupCreate();
-
-  if (this->event_group_ == nullptr) {
-    ESP_LOGE(TAG, "Failed to create event group");
-    this->mark_failed();
+  if (!create_event_group(this->event_group_, this)) {
     return;
   }
+
+  // Register callback to track frames in the output pipeline
+  this->output_speaker_->add_audio_output_callback([this](uint32_t new_frames, int64_t write_timestamp) {
+    atomic_subtract_clamped(this->frames_in_pipeline_, new_frames);
+  });
+
+  // Start with loop disabled since no task is running and no commands are pending
+  this->disable_loop();
 }
 
 void MixerSpeaker::loop() {
   uint32_t event_group_bits = xEventGroupGetBits(this->event_group_);
 
-  if (event_group_bits & MixerEventGroupBits::STATE_STARTING) {
-    ESP_LOGD(TAG, "Starting speaker mixer");
-    xEventGroupClearBits(this->event_group_, MixerEventGroupBits::STATE_STARTING);
+  // Handle pending start request
+  if (event_group_bits & MIXER_TASK_COMMAND_START) {
+    // Only start the task if it's fully stopped and cleaned up
+    if (!this->status_has_error() && (this->task_handle_ == nullptr) && (this->task_stack_buffer_ == nullptr)) {
+      esp_err_t err = this->start_task_();
+      switch (err) {
+        case ESP_OK:
+          xEventGroupClearBits(this->event_group_, MIXER_TASK_COMMAND_START);
+          break;
+        case ESP_ERR_NO_MEM:
+          ESP_LOGE(TAG, "Failed to start; retrying in 1 second");
+          this->status_momentary_error("memory-failure", 1000);
+          return;
+        case ESP_ERR_INVALID_STATE:
+          ESP_LOGE(TAG, "Failed to start; retrying in 1 second");
+          this->status_momentary_error("task-failure", 1000);
+          return;
+        default:
+          ESP_LOGE(TAG, "Failed to start; retrying in 1 second");
+          this->status_momentary_error("failure", 1000);
+          return;
+      }
+    }
   }
-  if (event_group_bits & MixerEventGroupBits::ERR_ESP_NO_MEM) {
-    this->status_set_error(LOG_STR("Failed to allocate the mixer's internal buffer"));
-    xEventGroupClearBits(this->event_group_, MixerEventGroupBits::ERR_ESP_NO_MEM);
+
+  if (event_group_bits & MIXER_TASK_STATE_STARTING) {
+    ESP_LOGD(TAG, "Starting");
+    xEventGroupClearBits(this->event_group_, MIXER_TASK_STATE_STARTING);
   }
-  if (event_group_bits & MixerEventGroupBits::STATE_RUNNING) {
-    ESP_LOGD(TAG, "Started speaker mixer");
+  if (event_group_bits & MIXER_TASK_ERR_ESP_NO_MEM) {
+    this->status_set_error(LOG_STR("Not enough memory"));
+    xEventGroupClearBits(this->event_group_, MIXER_TASK_ERR_ESP_NO_MEM);
+  }
+  if (event_group_bits & MIXER_TASK_STATE_RUNNING) {
+    ESP_LOGV(TAG, "Started");
     this->status_clear_error();
-    xEventGroupClearBits(this->event_group_, MixerEventGroupBits::STATE_RUNNING);
+    xEventGroupClearBits(this->event_group_, MIXER_TASK_STATE_RUNNING);
   }
-  if (event_group_bits & MixerEventGroupBits::STATE_STOPPING) {
-    ESP_LOGD(TAG, "Stopping speaker mixer");
-    xEventGroupClearBits(this->event_group_, MixerEventGroupBits::STATE_STOPPING);
+  if (event_group_bits & MIXER_TASK_STATE_STOPPING) {
+    ESP_LOGV(TAG, "Stopping");
+    xEventGroupClearBits(this->event_group_, MIXER_TASK_STATE_STOPPING);
   }
-  if (event_group_bits & MixerEventGroupBits::STATE_STOPPED) {
+  if (event_group_bits & MIXER_TASK_STATE_STOPPED) {
     if (this->delete_task_() == ESP_OK) {
-      xEventGroupClearBits(this->event_group_, MixerEventGroupBits::ALL_BITS);
+      ESP_LOGD(TAG, "Stopped");
+      xEventGroupClearBits(this->event_group_, MIXER_TASK_ALL_BITS);
     }
   }
 
   if (this->task_handle_ != nullptr) {
+    // If the mixer task is running, check if all source speakers are stopped
+
     bool all_stopped = true;
 
     for (auto &speaker : this->source_speakers_) {
@@ -344,7 +494,15 @@ void MixerSpeaker::loop() {
     }
 
     if (all_stopped) {
-      this->stop();
+      // Send stop command signal to the mixer task since no source speakers are active
+      xEventGroupSetBits(this->event_group_, MIXER_TASK_COMMAND_STOP);
+    }
+  } else if (this->task_stack_buffer_ == nullptr) {
+    // Task is fully stopped and cleaned up, check if we can disable loop
+    event_group_bits = xEventGroupGetBits(this->event_group_);
+    if (event_group_bits == 0) {
+      // No pending events, disable loop to save CPU cycles
+      this->disable_loop();
     }
   }
 }
@@ -366,7 +524,18 @@ esp_err_t MixerSpeaker::start(audio::AudioStreamInfo &stream_info) {
     }
   }
 
-  return this->start_task_();
+  this->enable_loop_soon_any_context();  // ensure loop processes command
+
+  uint32_t event_bits = xEventGroupGetBits(this->event_group_);
+  if (!(event_bits & MIXER_TASK_COMMAND_START)) {
+    // Set MIXER_TASK_COMMAND_START bit if not already set, and then immediately wake for low latency
+    xEventGroupSetBits(this->event_group_, MIXER_TASK_COMMAND_START);
+#if defined(USE_SOCKET_SELECT_SUPPORT) && defined(USE_WAKE_LOOP_THREADSAFE)
+    App.wake_loop_threadsafe();
+#endif
+  }
+
+  return ESP_OK;
 }
 
 esp_err_t MixerSpeaker::start_task_() {
@@ -397,28 +566,31 @@ esp_err_t MixerSpeaker::start_task_() {
 }
 
 esp_err_t MixerSpeaker::delete_task_() {
-  if (!this->task_created_) {
+  if (this->task_handle_ != nullptr) {
+    // Delete the task
+    vTaskDelete(this->task_handle_);
     this->task_handle_ = nullptr;
-
-    if (this->task_stack_buffer_ != nullptr) {
-      if (this->task_stack_in_psram_) {
-        RAMAllocator<StackType_t> stack_allocator(RAMAllocator<StackType_t>::ALLOC_EXTERNAL);
-        stack_allocator.deallocate(this->task_stack_buffer_, TASK_STACK_SIZE);
-      } else {
-        RAMAllocator<StackType_t> stack_allocator(RAMAllocator<StackType_t>::ALLOC_INTERNAL);
-        stack_allocator.deallocate(this->task_stack_buffer_, TASK_STACK_SIZE);
-      }
-
-      this->task_stack_buffer_ = nullptr;
-    }
-
-    return ESP_OK;
   }
 
-  return ESP_ERR_INVALID_STATE;
-}
+  if ((this->task_handle_ == nullptr) && (this->task_stack_buffer_ != nullptr)) {
+    // Deallocate the task stack buffer
+    if (this->task_stack_in_psram_) {
+      RAMAllocator<StackType_t> stack_allocator(RAMAllocator<StackType_t>::ALLOC_EXTERNAL);
+      stack_allocator.deallocate(this->task_stack_buffer_, TASK_STACK_SIZE);
+    } else {
+      RAMAllocator<StackType_t> stack_allocator(RAMAllocator<StackType_t>::ALLOC_INTERNAL);
+      stack_allocator.deallocate(this->task_stack_buffer_, TASK_STACK_SIZE);
+    }
 
-void MixerSpeaker::stop() { xEventGroupSetBits(this->event_group_, MixerEventGroupBits::COMMAND_STOP); }
+    this->task_stack_buffer_ = nullptr;
+  }
+
+  if ((this->task_handle_ != nullptr) || (this->task_stack_buffer_ != nullptr)) {
+    return ESP_ERR_INVALID_STATE;
+  }
+
+  return ESP_OK;
+}
 
 void MixerSpeaker::copy_frames(const int16_t *input_buffer, audio::AudioStreamInfo input_stream_info,
                                int16_t *output_buffer, audio::AudioStreamInfo output_stream_info,
@@ -472,32 +644,34 @@ void MixerSpeaker::mix_audio_samples(const int16_t *primary_buffer, audio::Audio
 }
 
 void MixerSpeaker::audio_mixer_task(void *params) {
-  MixerSpeaker *this_mixer = (MixerSpeaker *) params;
+  MixerSpeaker *this_mixer = static_cast<MixerSpeaker *>(params);
 
-  xEventGroupSetBits(this_mixer->event_group_, MixerEventGroupBits::STATE_STARTING);
-
-  this_mixer->task_created_ = true;
+  xEventGroupSetBits(this_mixer->event_group_, MIXER_TASK_STATE_STARTING);
 
   std::unique_ptr<audio::AudioSinkTransferBuffer> output_transfer_buffer = audio::AudioSinkTransferBuffer::create(
       this_mixer->audio_stream_info_.value().ms_to_bytes(TRANSFER_BUFFER_DURATION_MS));
 
   if (output_transfer_buffer == nullptr) {
-    xEventGroupSetBits(this_mixer->event_group_,
-                       MixerEventGroupBits::STATE_STOPPED | MixerEventGroupBits::ERR_ESP_NO_MEM);
+    xEventGroupSetBits(this_mixer->event_group_, MIXER_TASK_STATE_STOPPED | MIXER_TASK_ERR_ESP_NO_MEM);
 
-    this_mixer->task_created_ = false;
-    vTaskDelete(nullptr);
+    vTaskSuspend(nullptr);  // Suspend this task indefinitely until the loop method deletes it
   }
 
   output_transfer_buffer->set_sink(this_mixer->output_speaker_);
 
-  xEventGroupSetBits(this_mixer->event_group_, MixerEventGroupBits::STATE_RUNNING);
+  xEventGroupSetBits(this_mixer->event_group_, MIXER_TASK_STATE_RUNNING);
 
   bool sent_finished = false;
 
+  // Pre-allocate vectors to avoid heap allocation in the loop (max 8 source speakers per schema)
+  FixedVector<SourceSpeaker *> speakers_with_data;
+  FixedVector<std::shared_ptr<audio::AudioSourceTransferBuffer>> transfer_buffers_with_data;
+  speakers_with_data.init(this_mixer->source_speakers_.size());
+  transfer_buffers_with_data.init(this_mixer->source_speakers_.size());
+
   while (true) {
     uint32_t event_group_bits = xEventGroupGetBits(this_mixer->event_group_);
-    if (event_group_bits & MixerEventGroupBits::COMMAND_STOP) {
+    if (event_group_bits & MIXER_TASK_COMMAND_STOP) {
       break;
     }
 
@@ -507,15 +681,20 @@ void MixerSpeaker::audio_mixer_task(void *params) {
     const uint32_t output_frames_free =
         this_mixer->audio_stream_info_.value().bytes_to_frames(output_transfer_buffer->free());
 
-    std::vector<SourceSpeaker *> speakers_with_data;
-    std::vector<std::shared_ptr<audio::AudioSourceTransferBuffer>> transfer_buffers_with_data;
+    speakers_with_data.clear();
+    transfer_buffers_with_data.clear();
 
     for (auto &speaker : this_mixer->source_speakers_) {
-      if (speaker->get_transfer_buffer().use_count() > 0) {
+      if (speaker->is_running() && !speaker->get_pause_state()) {
+        // Speaker is running and not paused, so it possibly can provide audio data
         std::shared_ptr<audio::AudioSourceTransferBuffer> transfer_buffer = speaker->get_transfer_buffer().lock();
-        speaker->process_data_from_source(0);  // Transfers and ducks audio from source ring buffers
+        if (transfer_buffer.use_count() == 0) {
+          // No transfer buffer allocated, so skip processing this speaker
+          continue;
+        }
+        speaker->process_data_from_source(transfer_buffer, 0);  // Transfers and ducks audio from source ring buffers
 
-        if ((transfer_buffer->available() > 0) && !speaker->get_pause_state()) {
+        if (transfer_buffer->available() > 0) {
           // Store the locked transfer buffers in their own vector to avoid releasing ownership until after the loop
           transfer_buffers_with_data.push_back(transfer_buffer);
           speakers_with_data.push_back(speaker);
@@ -547,13 +726,21 @@ void MixerSpeaker::audio_mixer_task(void *params) {
                     reinterpret_cast<int16_t *>(output_transfer_buffer->get_buffer_end()),
                     this_mixer->audio_stream_info_.value(), frames_to_mix);
 
-        // Update source speaker buffer length
-        transfer_buffers_with_data[0]->decrease_buffer_length(active_stream_info.frames_to_bytes(frames_to_mix));
-        speakers_with_data[0]->pending_playback_frames_ += frames_to_mix;
+        // Set playback delay for newly contributing source
+        if (!speakers_with_data[0]->has_contributed_.load(std::memory_order_acquire)) {
+          speakers_with_data[0]->playback_delay_frames_.store(
+              this_mixer->frames_in_pipeline_.load(std::memory_order_acquire), std::memory_order_release);
+          speakers_with_data[0]->has_contributed_.store(true, std::memory_order_release);
+        }
 
-        // Update output transfer buffer length
+        // Update source speaker pending frames
+        speakers_with_data[0]->pending_playback_frames_.fetch_add(frames_to_mix, std::memory_order_release);
+        transfer_buffers_with_data[0]->decrease_buffer_length(active_stream_info.frames_to_bytes(frames_to_mix));
+
+        // Update output transfer buffer length and pipeline frame count
         output_transfer_buffer->increase_buffer_length(
             this_mixer->audio_stream_info_.value().frames_to_bytes(frames_to_mix));
+        this_mixer->frames_in_pipeline_.fetch_add(frames_to_mix, std::memory_order_release);
       } else {
         // Speaker's stream info doesn't match the output speaker's, so it's a new source speaker
         if (!this_mixer->output_speaker_->is_stopped()) {
@@ -568,6 +755,8 @@ void MixerSpeaker::audio_mixer_task(void *params) {
                                      active_stream_info.get_sample_rate());
           this_mixer->output_speaker_->set_audio_stream_info(this_mixer->audio_stream_info_.value());
           this_mixer->output_speaker_->start();
+          // Reset pipeline frame count since we're starting fresh with a new sample rate
+          this_mixer->frames_in_pipeline_.store(0, std::memory_order_release);
           sent_finished = false;
         }
       }
@@ -596,26 +785,39 @@ void MixerSpeaker::audio_mixer_task(void *params) {
         }
       }
 
+      // Get current pipeline depth for delay calculation (before incrementing)
+      uint32_t current_pipeline_frames = this_mixer->frames_in_pipeline_.load(std::memory_order_acquire);
+
       // Update source transfer buffer lengths and add new audio durations to the source speaker pending playbacks
       for (size_t i = 0; i < transfer_buffers_with_data.size(); ++i) {
+        // Set playback delay for newly contributing sources
+        if (!speakers_with_data[i]->has_contributed_.load(std::memory_order_acquire)) {
+          speakers_with_data[i]->playback_delay_frames_.store(current_pipeline_frames, std::memory_order_release);
+          speakers_with_data[i]->has_contributed_.store(true, std::memory_order_release);
+        }
+
+        speakers_with_data[i]->pending_playback_frames_.fetch_add(frames_to_mix, std::memory_order_release);
         transfer_buffers_with_data[i]->decrease_buffer_length(
             speakers_with_data[i]->get_audio_stream_info().frames_to_bytes(frames_to_mix));
-        speakers_with_data[i]->pending_playback_frames_ += frames_to_mix;
       }
 
-      // Update output transfer buffer length
+      // Update output transfer buffer length and pipeline frame count (once, not per source)
       output_transfer_buffer->increase_buffer_length(
           this_mixer->audio_stream_info_.value().frames_to_bytes(frames_to_mix));
+      this_mixer->frames_in_pipeline_.fetch_add(frames_to_mix, std::memory_order_release);
     }
   }
 
-  xEventGroupSetBits(this_mixer->event_group_, MixerEventGroupBits::STATE_STOPPING);
+  xEventGroupSetBits(this_mixer->event_group_, MIXER_TASK_STATE_STOPPING);
+
+  // Reset pipeline frame count since the task is stopping
+  this_mixer->frames_in_pipeline_.store(0, std::memory_order_release);
 
   output_transfer_buffer.reset();
 
-  xEventGroupSetBits(this_mixer->event_group_, MixerEventGroupBits::STATE_STOPPED);
-  this_mixer->task_created_ = false;
-  vTaskDelete(nullptr);
+  xEventGroupSetBits(this_mixer->event_group_, MIXER_TASK_STATE_STOPPED);
+
+  vTaskSuspend(nullptr);  // Suspend this task indefinitely until the loop method deletes it
 }
 
 }  // namespace mixer_speaker

esphome/components/mixer/speaker/mixer_speaker.h

@@ -7,26 +7,31 @@
 #include "esphome/components/speaker/speaker.h"
 
 #include "esphome/core/component.h"
+#include "esphome/core/helpers.h"
 
-#include <freertos/event_groups.h>
 #include <freertos/FreeRTOS.h>
+#include <freertos/event_groups.h>
+
+#include <atomic>
 
 namespace esphome {
 namespace mixer_speaker {
 
 /* Classes for mixing several source speaker audio streams and writing it to another speaker component.
  *  - Volume controls are passed through to the output speaker
+ *  - Source speaker commands are signaled via event group bits and processed in its loop function to ensure thread
+ * safety
  *  - Directly handles pausing at the SourceSpeaker level; pause state is not passed through to the output speaker.
- *  - Audio sent to the SourceSpeaker's must have 16 bits per sample.
+ *  - Audio sent to the SourceSpeaker must have 16 bits per sample.
  *  - Audio sent to the SourceSpeaker can have any number of channels. They are duplicated or ignored as needed to match
  *    the number of channels required for the output speaker.
- *  - In queue mode, the audio sent to the SoureSpeakers can have different sample rates.
+ *  - In queue mode, the audio sent to the SourceSpeakers can have different sample rates.
  *  - In non-queue mode, the audio sent to the SourceSpeakers must have the same sample rates.
  *  - SourceSpeaker has an internal ring buffer. It also allocates a shared_ptr for an AudioTranserBuffer object.
  *  - Audio Data Flow:
  *      - Audio data played on a SourceSpeaker first writes to its internal ring buffer.
  *      - MixerSpeaker task temporarily takes shared ownership of each SourceSpeaker's AudioTransferBuffer.
- *      - MixerSpeaker calls SourceSpeaker's `process_data_from_source`, which tranfers audio from the SourceSpeaker's
+ *      - MixerSpeaker calls SourceSpeaker's `process_data_from_source`, which transfers audio from the SourceSpeaker's
  *        ring buffer to its AudioTransferBuffer. Audio ducking is applied at this step.
  *      - In queue mode, MixerSpeaker prioritizes the earliest configured SourceSpeaker with audio data. Audio data is
  *        sent to the output speaker.
@@ -63,13 +68,15 @@ class SourceSpeaker : public speaker::Speaker, public Component {
   bool get_pause_state() const override { return this->pause_state_; }
 
   /// @brief Transfers audio from the ring buffer into the transfer buffer. Ducks audio while transferring.
+  /// @param transfer_buffer Locked shared_ptr to the transfer buffer (must be valid, not null)
   /// @param ticks_to_wait FreeRTOS ticks to wait while waiting to read from the ring buffer.
   /// @return Number of bytes transferred from the ring buffer.
-  size_t process_data_from_source(TickType_t ticks_to_wait);
+  size_t process_data_from_source(std::shared_ptr<audio::AudioSourceTransferBuffer> &transfer_buffer,
+                                  TickType_t ticks_to_wait);
 
   /// @brief Sets the ducking level for the source speaker.
-  /// @param decibel_reduction (uint8_t) The dB reduction level. For example, 0 is no change, 10 is a reduction by 10 dB
-  /// @param duration (uint32_t) The number of milliseconds to transition from the current level to the new level
+  /// @param decibel_reduction The dB reduction level. For example, 0 is no change, 10 is a reduction by 10 dB
+  /// @param duration The number of milliseconds to transition from the current level to the new level
   void apply_ducking(uint8_t decibel_reduction, uint32_t duration);
 
   void set_buffer_duration(uint32_t buffer_duration_ms) { this->buffer_duration_ms_ = buffer_duration_ms; }
@@ -81,14 +88,15 @@ class SourceSpeaker : public speaker::Speaker, public Component {
  protected:
   friend class MixerSpeaker;
   esp_err_t start_();
-  void stop_();
+  void enter_stopping_state_();
+  void send_command_(uint32_t command_bit, bool wake_loop = false);
 
   /// @brief Ducks audio samples by a specified amount. When changing the ducking amount, it can transition gradually
   /// over a specified amount of samples.
   /// @param input_buffer buffer with audio samples to be ducked in place
   /// @param input_samples_to_duck number of samples to process in ``input_buffer``
   /// @param current_ducking_db_reduction pointer to the current dB reduction
-  /// @param ducking_transition_samples_remaining pointer to the total number of samples left before the the
+  /// @param ducking_transition_samples_remaining pointer to the total number of samples left before the
   ///         transition is finished
   /// @param samples_per_ducking_step total number of samples per ducking step for the transition
   /// @param db_change_per_ducking_step the change in dB reduction per step
@@ -114,7 +122,12 @@ class SourceSpeaker : public speaker::Speaker, public Component {
   uint32_t ducking_transition_samples_remaining_{0};
   uint32_t samples_per_ducking_step_{0};
 
-  uint32_t pending_playback_frames_{0};
+  std::atomic<uint32_t> pending_playback_frames_{0};
+  std::atomic<uint32_t> playback_delay_frames_{0};  // Frames in output pipeline when this source started contributing
+  std::atomic<bool> has_contributed_{false};        // Tracks if source has contributed during this session
+
+  EventGroupHandle_t event_group_{nullptr};
+  uint32_t stopping_start_ms_{0};
 };
 
 class MixerSpeaker : public Component {
@@ -123,10 +136,11 @@ class MixerSpeaker : public Component {
   void setup() override;
   void loop() override;
 
+  void init_source_speakers(size_t count) { this->source_speakers_.init(count); }
   void add_source_speaker(SourceSpeaker *source_speaker) { this->source_speakers_.push_back(source_speaker); }
 
   /// @brief Starts the mixer task. Called by a source speaker giving the current audio stream information
-  /// @param stream_info The calling source speakers audio stream information
+  /// @param stream_info The calling source speaker's audio stream information
   /// @return ESP_ERR_NOT_SUPPORTED if the incoming stream is incompatible due to unsupported bits per sample
   ///         ESP_ERR_INVALID_ARG if the incoming stream is incompatible to be mixed with the other input audio stream
   ///         ESP_ERR_NO_MEM if there isn't enough memory for the task's stack
@@ -134,8 +148,6 @@ class MixerSpeaker : public Component {
   ///         ESP_OK if the incoming stream is compatible and the mixer task starts
   esp_err_t start(audio::AudioStreamInfo &stream_info);
 
-  void stop();
-
   void set_output_channels(uint8_t output_channels) { this->output_channels_ = output_channels; }
   void set_output_speaker(speaker::Speaker *speaker) { this->output_speaker_ = speaker; }
   void set_queue_mode(bool queue_mode) { this->queue_mode_ = queue_mode; }
@@ -143,6 +155,9 @@ class MixerSpeaker : public Component {
 
   speaker::Speaker *get_output_speaker() const { return this->output_speaker_; }
 
+  /// @brief Returns the current number of frames in the output pipeline (written but not yet played)
+  uint32_t get_frames_in_pipeline() const { return this->frames_in_pipeline_.load(std::memory_order_acquire); }
+
  protected:
   /// @brief Copies audio frames from the input buffer to the output buffer taking into account the number of channels
   /// in each stream. If the output stream has more channels, the input samples are duplicated. If the output stream has
@@ -159,11 +174,11 @@ class MixerSpeaker : public Component {
   /// and secondary samples are duplicated or dropped as necessary to ensure the output stream has the configured number
   /// of channels. Output samples are clamped to the corresponding int16 min or max values if the mixed sample
   /// overflows.
-  /// @param primary_buffer (int16_t *) samples buffer for the primary stream
+  /// @param primary_buffer samples buffer for the primary stream
   /// @param primary_stream_info stream info for the primary stream
-  /// @param secondary_buffer (int16_t *) samples buffer for secondary stream
+  /// @param secondary_buffer samples buffer for secondary stream
   /// @param secondary_stream_info stream info for the secondary stream
-  /// @param output_buffer (int16_t *) buffer for the mixed samples
+  /// @param output_buffer buffer for the mixed samples
   /// @param output_stream_info stream info for the output buffer
   /// @param frames_to_mix number of frames in the primary and secondary buffers to mix together
   static void mix_audio_samples(const int16_t *primary_buffer, audio::AudioStreamInfo primary_stream_info,
@@ -185,20 +200,20 @@ class MixerSpeaker : public Component {
 
   EventGroupHandle_t event_group_{nullptr};
 
-  std::vector<SourceSpeaker *> source_speakers_;
+  FixedVector<SourceSpeaker *> source_speakers_;
   speaker::Speaker *output_speaker_{nullptr};
 
   uint8_t output_channels_;
   bool queue_mode_;
   bool task_stack_in_psram_{false};
 
-  bool task_created_{false};
-
   TaskHandle_t task_handle_{nullptr};
   StaticTask_t task_stack_;
   StackType_t *task_stack_buffer_{nullptr};
 
   optional<audio::AudioStreamInfo> audio_stream_info_;
+
+  std::atomic<uint32_t> frames_in_pipeline_{0};  // Frames written to output but not yet played
 };
 
 }  // namespace mixer_speaker

esphome/components/modbus/modbus.cpp

@@ -19,16 +19,25 @@ void Modbus::setup() {
 void Modbus::loop() {
   const uint32_t now = App.get_loop_component_start_time();
 
-  while (this->available()) {
-    uint8_t byte;
-    this->read_byte(&byte);
-    if (this->parse_modbus_byte_(byte)) {
-      this->last_modbus_byte_ = now;
-    } else {
-      size_t at = this->rx_buffer_.size();
-      if (at > 0) {
-        ESP_LOGV(TAG, "Clearing buffer of %d bytes - parse failed", at);
-        this->rx_buffer_.clear();
+  // Read all available bytes in batches to reduce UART call overhead.
+  size_t avail = this->available();
+  uint8_t buf[64];
+  while (avail > 0) {
+    size_t to_read = std::min(avail, sizeof(buf));
+    if (!this->read_array(buf, to_read)) {
+      break;
+    }
+    avail -= to_read;
+
+    for (size_t i = 0; i < to_read; i++) {
+      if (this->parse_modbus_byte_(buf[i])) {
+        this->last_modbus_byte_ = now;
+      } else {
+        size_t at = this->rx_buffer_.size();
+        if (at > 0) {
+          ESP_LOGV(TAG, "Clearing buffer of %d bytes - parse failed", at);
+          this->rx_buffer_.clear();
+        }
       }
     }
   }
@@ -219,39 +228,50 @@ void Modbus::send(uint8_t address, uint8_t function_code, uint16_t start_address
     return;
   }
 
-  std::vector<uint8_t> data;
-  data.push_back(address);
-  data.push_back(function_code);
+  static constexpr size_t ADDR_SIZE = 1;
+  static constexpr size_t FC_SIZE = 1;
+  static constexpr size_t START_ADDR_SIZE = 2;
+  static constexpr size_t NUM_ENTITIES_SIZE = 2;
+  static constexpr size_t BYTE_COUNT_SIZE = 1;
+  static constexpr size_t MAX_PAYLOAD_SIZE = std::numeric_limits<uint8_t>::max();
+  static constexpr size_t CRC_SIZE = 2;
+  static constexpr size_t MAX_FRAME_SIZE =
+      ADDR_SIZE + FC_SIZE + START_ADDR_SIZE + NUM_ENTITIES_SIZE + BYTE_COUNT_SIZE + MAX_PAYLOAD_SIZE + CRC_SIZE;
+  uint8_t data[MAX_FRAME_SIZE];
+  size_t pos = 0;
+
+  data[pos++] = address;
+  data[pos++] = function_code;
   if (this->role == ModbusRole::CLIENT) {
-    data.push_back(start_address >> 8);
-    data.push_back(start_address >> 0);
+    data[pos++] = start_address >> 8;
+    data[pos++] = start_address >> 0;
     if (function_code != ModbusFunctionCode::WRITE_SINGLE_COIL &&
         function_code != ModbusFunctionCode::WRITE_SINGLE_REGISTER) {
-      data.push_back(number_of_entities >> 8);
-      data.push_back(number_of_entities >> 0);
+      data[pos++] = number_of_entities >> 8;
+      data[pos++] = number_of_entities >> 0;
     }
   }
 
   if (payload != nullptr) {
     if (this->role == ModbusRole::SERVER || function_code == ModbusFunctionCode::WRITE_MULTIPLE_COILS ||
         function_code == ModbusFunctionCode::WRITE_MULTIPLE_REGISTERS) {  // Write multiple
-      data.push_back(payload_len);                                        // Byte count is required for write
+      data[pos++] = payload_len;                                          // Byte count is required for write
     } else {
       payload_len = 2;  // Write single register or coil
     }
     for (int i = 0; i < payload_len; i++) {
-      data.push_back(payload[i]);
+      data[pos++] = payload[i];
     }
   }
 
-  auto crc = crc16(data.data(), data.size());
-  data.push_back(crc >> 0);
-  data.push_back(crc >> 8);
+  auto crc = crc16(data, pos);
+  data[pos++] = crc >> 0;
+  data[pos++] = crc >> 8;
 
   if (this->flow_control_pin_ != nullptr)
     this->flow_control_pin_->digital_write(true);
 
-  this->write_array(data);
+  this->write_array(data, pos);
   this->flush();
 
   if (this->flow_control_pin_ != nullptr)
@@ -261,7 +281,7 @@ void Modbus::send(uint8_t address, uint8_t function_code, uint16_t start_address
 #if ESPHOME_LOG_LEVEL >= ESPHOME_LOG_LEVEL_VERBOSE
   char hex_buf[format_hex_pretty_size(MODBUS_MAX_LOG_BYTES)];
 #endif
-  ESP_LOGV(TAG, "Modbus write: %s", format_hex_pretty_to(hex_buf, data.data(), data.size()));
+  ESP_LOGV(TAG, "Modbus write: %s", format_hex_pretty_to(hex_buf, data, pos));
 }
 
 // Helper function for lambdas

esphome/components/mqtt/mqtt_alarm_control_panel.cpp

@@ -13,31 +13,12 @@ static const char *const TAG = "mqtt.alarm_control_panel";
 
 using namespace esphome::alarm_control_panel;
 
+// Alarm state MQTT strings indexed by AlarmControlPanelState enum (0-9)
+PROGMEM_STRING_TABLE(AlarmMqttStateStrings, "disarmed", "armed_home", "armed_away", "armed_night", "armed_vacation",
+                     "armed_custom_bypass", "pending", "arming", "disarming", "triggered", "unknown");
+
 static ProgmemStr alarm_state_to_mqtt_str(AlarmControlPanelState state) {
-  switch (state) {
-    case ACP_STATE_DISARMED:
-      return ESPHOME_F("disarmed");
-    case ACP_STATE_ARMED_HOME:
-      return ESPHOME_F("armed_home");
-    case ACP_STATE_ARMED_AWAY:
-      return ESPHOME_F("armed_away");
-    case ACP_STATE_ARMED_NIGHT:
-      return ESPHOME_F("armed_night");
-    case ACP_STATE_ARMED_VACATION:
-      return ESPHOME_F("armed_vacation");
-    case ACP_STATE_ARMED_CUSTOM_BYPASS:
-      return ESPHOME_F("armed_custom_bypass");
-    case ACP_STATE_PENDING:
-      return ESPHOME_F("pending");
-    case ACP_STATE_ARMING:
-      return ESPHOME_F("arming");
-    case ACP_STATE_DISARMING:
-      return ESPHOME_F("disarming");
-    case ACP_STATE_TRIGGERED:
-      return ESPHOME_F("triggered");
-    default:
-      return ESPHOME_F("unknown");
-  }
+  return AlarmMqttStateStrings::get_progmem_str(static_cast<uint8_t>(state), AlarmMqttStateStrings::LAST_INDEX);
 }
 
 MQTTAlarmControlPanelComponent::MQTTAlarmControlPanelComponent(AlarmControlPanel *alarm_control_panel)

esphome/components/mqtt/mqtt_client.cpp

@@ -8,6 +8,7 @@
 #include "esphome/core/entity_base.h"
 #include "esphome/core/helpers.h"
 #include "esphome/core/log.h"
+#include "esphome/core/progmem.h"
 #include "esphome/core/version.h"
 #ifdef USE_LOGGER
 #include "esphome/components/logger/logger.h"
@@ -27,6 +28,11 @@ namespace esphome::mqtt {
 
 static const char *const TAG = "mqtt";
 
+// Disconnect reason strings indexed by MQTTClientDisconnectReason enum (0-8)
+PROGMEM_STRING_TABLE(MQTTDisconnectReasonStrings, "TCP disconnected", "Unacceptable Protocol Version",
+                     "Identifier Rejected", "Server Unavailable", "Malformed Credentials", "Not Authorized",
+                     "Not Enough Space", "TLS Bad Fingerprint", "DNS Resolve Error", "Unknown");
+
 MQTTClientComponent::MQTTClientComponent() {
   global_mqtt_client = this;
   char mac_addr[MAC_ADDRESS_BUFFER_SIZE];
@@ -348,36 +354,8 @@ void MQTTClientComponent::loop() {
   mqtt_backend_.loop();
 
   if (this->disconnect_reason_.has_value()) {
-    const LogString *reason_s;
-    switch (*this->disconnect_reason_) {
-      case MQTTClientDisconnectReason::TCP_DISCONNECTED:
-        reason_s = LOG_STR("TCP disconnected");
-        break;
-      case MQTTClientDisconnectReason::MQTT_UNACCEPTABLE_PROTOCOL_VERSION:
-        reason_s = LOG_STR("Unacceptable Protocol Version");
-        break;
-      case MQTTClientDisconnectReason::MQTT_IDENTIFIER_REJECTED:
-        reason_s = LOG_STR("Identifier Rejected");
-        break;
-      case MQTTClientDisconnectReason::MQTT_SERVER_UNAVAILABLE:
-        reason_s = LOG_STR("Server Unavailable");
-        break;
-      case MQTTClientDisconnectReason::MQTT_MALFORMED_CREDENTIALS:
-        reason_s = LOG_STR("Malformed Credentials");
-        break;
-      case MQTTClientDisconnectReason::MQTT_NOT_AUTHORIZED:
-        reason_s = LOG_STR("Not Authorized");
-        break;
-      case MQTTClientDisconnectReason::ESP8266_NOT_ENOUGH_SPACE:
-        reason_s = LOG_STR("Not Enough Space");
-        break;
-      case MQTTClientDisconnectReason::TLS_BAD_FINGERPRINT:
-        reason_s = LOG_STR("TLS Bad Fingerprint");
-        break;
-      default:
-        reason_s = LOG_STR("Unknown");
-        break;
-    }
+    const LogString *reason_s = MQTTDisconnectReasonStrings::get_log_str(
+        static_cast<uint8_t>(*this->disconnect_reason_), MQTTDisconnectReasonStrings::LAST_INDEX);
     if (!network::is_connected()) {
       reason_s = LOG_STR("WiFi disconnected");
     }

esphome/components/mqtt/mqtt_climate.cpp

@@ -13,109 +13,44 @@ static const char *const TAG = "mqtt.climate";
 
 using namespace esphome::climate;
 
+// Climate mode MQTT strings indexed by ClimateMode enum (0-6): OFF, HEAT_COOL, COOL, HEAT, FAN_ONLY, DRY, AUTO
+PROGMEM_STRING_TABLE(ClimateMqttModeStrings, "off", "heat_cool", "cool", "heat", "fan_only", "dry", "auto", "unknown");
+
 static ProgmemStr climate_mode_to_mqtt_str(ClimateMode mode) {
-  switch (mode) {
-    case CLIMATE_MODE_OFF:
-      return ESPHOME_F("off");
-    case CLIMATE_MODE_HEAT_COOL:
-      return ESPHOME_F("heat_cool");
-    case CLIMATE_MODE_AUTO:
-      return ESPHOME_F("auto");
-    case CLIMATE_MODE_COOL:
-      return ESPHOME_F("cool");
-    case CLIMATE_MODE_HEAT:
-      return ESPHOME_F("heat");
-    case CLIMATE_MODE_FAN_ONLY:
-      return ESPHOME_F("fan_only");
-    case CLIMATE_MODE_DRY:
-      return ESPHOME_F("dry");
-    default:
-      return ESPHOME_F("unknown");
-  }
+  return ClimateMqttModeStrings::get_progmem_str(static_cast<uint8_t>(mode), ClimateMqttModeStrings::LAST_INDEX);
 }
 
+// Climate action MQTT strings indexed by ClimateAction enum (0,2-6): OFF, (gap), COOLING, HEATING, IDLE, DRYING, FAN
+PROGMEM_STRING_TABLE(ClimateMqttActionStrings, "off", "unknown", "cooling", "heating", "idle", "drying", "fan",
+                     "unknown");
+
 static ProgmemStr climate_action_to_mqtt_str(ClimateAction action) {
-  switch (action) {
-    case CLIMATE_ACTION_OFF:
-      return ESPHOME_F("off");
-    case CLIMATE_ACTION_COOLING:
-      return ESPHOME_F("cooling");
-    case CLIMATE_ACTION_HEATING:
-      return ESPHOME_F("heating");
-    case CLIMATE_ACTION_IDLE:
-      return ESPHOME_F("idle");
-    case CLIMATE_ACTION_DRYING:
-      return ESPHOME_F("drying");
-    case CLIMATE_ACTION_FAN:
-      return ESPHOME_F("fan");
-    default:
-      return ESPHOME_F("unknown");
-  }
+  return ClimateMqttActionStrings::get_progmem_str(static_cast<uint8_t>(action), ClimateMqttActionStrings::LAST_INDEX);
 }
 
+// Climate fan mode MQTT strings indexed by ClimateFanMode enum (0-9)
+PROGMEM_STRING_TABLE(ClimateMqttFanModeStrings, "on", "off", "auto", "low", "medium", "high", "middle", "focus",
+                     "diffuse", "quiet", "unknown");
+
 static ProgmemStr climate_fan_mode_to_mqtt_str(ClimateFanMode fan_mode) {
-  switch (fan_mode) {
-    case CLIMATE_FAN_ON:
-      return ESPHOME_F("on");
-    case CLIMATE_FAN_OFF:
-      return ESPHOME_F("off");
-    case CLIMATE_FAN_AUTO:
-      return ESPHOME_F("auto");
-    case CLIMATE_FAN_LOW:
-      return ESPHOME_F("low");
-    case CLIMATE_FAN_MEDIUM:
-      return ESPHOME_F("medium");
-    case CLIMATE_FAN_HIGH:
-      return ESPHOME_F("high");
-    case CLIMATE_FAN_MIDDLE:
-      return ESPHOME_F("middle");
-    case CLIMATE_FAN_FOCUS:
-      return ESPHOME_F("focus");
-    case CLIMATE_FAN_DIFFUSE:
-      return ESPHOME_F("diffuse");
-    case CLIMATE_FAN_QUIET:
-      return ESPHOME_F("quiet");
-    default:
-      return ESPHOME_F("unknown");
-  }
+  return ClimateMqttFanModeStrings::get_progmem_str(static_cast<uint8_t>(fan_mode),
+                                                    ClimateMqttFanModeStrings::LAST_INDEX);
 }
 
+// Climate swing mode MQTT strings indexed by ClimateSwingMode enum (0-3): OFF, BOTH, VERTICAL, HORIZONTAL
+PROGMEM_STRING_TABLE(ClimateMqttSwingModeStrings, "off", "both", "vertical", "horizontal", "unknown");
+
 static ProgmemStr climate_swing_mode_to_mqtt_str(ClimateSwingMode swing_mode) {
-  switch (swing_mode) {
-    case CLIMATE_SWING_OFF:
-      return ESPHOME_F("off");
-    case CLIMATE_SWING_BOTH:
-      return ESPHOME_F("both");
-    case CLIMATE_SWING_VERTICAL:
-      return ESPHOME_F("vertical");
-    case CLIMATE_SWING_HORIZONTAL:
-      return ESPHOME_F("horizontal");
-    default:
-      return ESPHOME_F("unknown");
-  }
+  return ClimateMqttSwingModeStrings::get_progmem_str(static_cast<uint8_t>(swing_mode),
+                                                      ClimateMqttSwingModeStrings::LAST_INDEX);
 }
 
+// Climate preset MQTT strings indexed by ClimatePreset enum (0-7)
+PROGMEM_STRING_TABLE(ClimateMqttPresetStrings, "none", "home", "away", "boost", "comfort", "eco", "sleep", "activity",
+                     "unknown");
+
 static ProgmemStr climate_preset_to_mqtt_str(ClimatePreset preset) {
-  switch (preset) {
-    case CLIMATE_PRESET_NONE:
-      return ESPHOME_F("none");
-    case CLIMATE_PRESET_HOME:
-      return ESPHOME_F("home");
-    case CLIMATE_PRESET_ECO:
-      return ESPHOME_F("eco");
-    case CLIMATE_PRESET_AWAY:
-      return ESPHOME_F("away");
-    case CLIMATE_PRESET_BOOST:
-      return ESPHOME_F("boost");
-    case CLIMATE_PRESET_COMFORT:
-      return ESPHOME_F("comfort");
-    case CLIMATE_PRESET_SLEEP:
-      return ESPHOME_F("sleep");
-    case CLIMATE_PRESET_ACTIVITY:
-      return ESPHOME_F("activity");
-    default:
-      return ESPHOME_F("unknown");
-  }
+  return ClimateMqttPresetStrings::get_progmem_str(static_cast<uint8_t>(preset), ClimateMqttPresetStrings::LAST_INDEX);
 }
 
 void MQTTClimateComponent::send_discovery(JsonObject root, mqtt::SendDiscoveryConfig &config) {

esphome/components/mqtt/mqtt_component.cpp

@@ -14,6 +14,9 @@ namespace esphome::mqtt {
 
 static const char *const TAG = "mqtt.component";
 
+// Entity category MQTT strings indexed by EntityCategory enum: NONE(0) is skipped, CONFIG(1), DIAGNOSTIC(2)
+PROGMEM_STRING_TABLE(EntityCategoryMqttStrings, "", "config", "diagnostic");
+
 // Helper functions for building topic strings on stack
 inline char *append_str(char *p, const char *s, size_t len) {
   memcpy(p, s, len);
@@ -31,10 +34,7 @@ inline char *append_char(char *p, char c) {
 // MQTT_COMPONENT_TYPE_MAX_LEN, MQTT_SUFFIX_MAX_LEN, and MQTT_DEFAULT_TOPIC_MAX_LEN are in mqtt_component.h.
 // ESPHOME_DEVICE_NAME_MAX_LEN and OBJECT_ID_MAX_LEN are defined in entity_base.h.
 // This ensures the stack buffers below are always large enough.
-static constexpr size_t DISCOVERY_PREFIX_MAX_LEN = 64;  // Validated in Python: cv.Length(max=64)
-// Format: prefix + "/" + type + "/" + name + "/" + object_id + "/config" + null
-static constexpr size_t DISCOVERY_TOPIC_MAX_LEN = DISCOVERY_PREFIX_MAX_LEN + 1 + MQTT_COMPONENT_TYPE_MAX_LEN + 1 +
-                                                  ESPHOME_DEVICE_NAME_MAX_LEN + 1 + OBJECT_ID_MAX_LEN + 7 + 1;
+// MQTT_DISCOVERY_PREFIX_MAX_LEN and MQTT_DISCOVERY_TOPIC_MAX_LEN are defined in mqtt_component.h
 
 // Function implementation of LOG_MQTT_COMPONENT macro to reduce code size
 void log_mqtt_component(const char *tag, MQTTComponent *obj, bool state_topic, bool command_topic) {
@@ -51,15 +51,15 @@ void MQTTComponent::set_subscribe_qos(uint8_t qos) { this->subscribe_qos_ = qos;
 
 void MQTTComponent::set_retain(bool retain) { this->retain_ = retain; }
 
-std::string MQTTComponent::get_discovery_topic_(const MQTTDiscoveryInfo &discovery_info) const {
+StringRef MQTTComponent::get_discovery_topic_to_(std::span<char, MQTT_DISCOVERY_TOPIC_MAX_LEN> buf,
+                                                 const MQTTDiscoveryInfo &discovery_info) const {
   char sanitized_name[ESPHOME_DEVICE_NAME_MAX_LEN + 1];
   str_sanitize_to(sanitized_name, App.get_name().c_str());
   const char *comp_type = this->component_type();
   char object_id_buf[OBJECT_ID_MAX_LEN];
   StringRef object_id = this->get_default_object_id_to_(object_id_buf);
 
-  char buf[DISCOVERY_TOPIC_MAX_LEN];
-  char *p = buf;
+  char *p = buf.data();
 
   p = append_str(p, discovery_info.prefix.data(), discovery_info.prefix.size());
   p = append_char(p, '/');
@@ -69,8 +69,9 @@ std::string MQTTComponent::get_discovery_topic_(const MQTTDiscoveryInfo &discove
   p = append_char(p, '/');
   p = append_str(p, object_id.c_str(), object_id.size());
   p = append_str(p, "/config", 7);
+  *p = '\0';
 
-  return std::string(buf, p - buf);
+  return StringRef(buf.data(), p - buf.data());
 }
 
 StringRef MQTTComponent::get_default_topic_for_to_(std::span<char, MQTT_DEFAULT_TOPIC_MAX_LEN> buf, const char *suffix,
@@ -179,16 +180,19 @@ bool MQTTComponent::publish_json(const char *topic, const json::json_build_t &f)
 bool MQTTComponent::send_discovery_() {
   const MQTTDiscoveryInfo &discovery_info = global_mqtt_client->get_discovery_info();
 
+  char discovery_topic_buf[MQTT_DISCOVERY_TOPIC_MAX_LEN];
+  StringRef discovery_topic = this->get_discovery_topic_to_(discovery_topic_buf, discovery_info);
+
   if (discovery_info.clean) {
     ESP_LOGV(TAG, "'%s': Cleaning discovery", this->friendly_name_().c_str());
-    return global_mqtt_client->publish(this->get_discovery_topic_(discovery_info), "", 0, this->qos_, true);
+    return global_mqtt_client->publish(discovery_topic.c_str(), "", 0, this->qos_, true);
   }
 
   ESP_LOGV(TAG, "'%s': Sending discovery", this->friendly_name_().c_str());
 
   // NOLINTBEGIN(clang-analyzer-cplusplus.NewDeleteLeaks) false positive with ArduinoJson
   return global_mqtt_client->publish_json(
-      this->get_discovery_topic_(discovery_info),
+      discovery_topic.c_str(),
       [this](JsonObject root) {
         SendDiscoveryConfig config;
         config.state_topic = true;
@@ -201,7 +205,7 @@ bool MQTTComponent::send_discovery_() {
         }
 
         // Fields from EntityBase
-        root[MQTT_NAME] = this->get_entity()->has_own_name() ? this->friendly_name_() : "";
+        root[MQTT_NAME] = this->get_entity()->has_own_name() ? this->friendly_name_() : StringRef();
 
         if (this->is_disabled_by_default_())
           root[MQTT_ENABLED_BY_DEFAULT] = false;
@@ -213,13 +217,9 @@ bool MQTTComponent::send_discovery_() {
         // NOLINTEND(clang-analyzer-cplusplus.NewDeleteLeaks)
 
         const auto entity_category = this->get_entity()->get_entity_category();
-        switch (entity_category) {
-          case ENTITY_CATEGORY_NONE:
-            break;
-          case ENTITY_CATEGORY_CONFIG:
-          case ENTITY_CATEGORY_DIAGNOSTIC:
-            root[MQTT_ENTITY_CATEGORY] = entity_category == ENTITY_CATEGORY_CONFIG ? "config" : "diagnostic";
-            break;
+        if (entity_category != ENTITY_CATEGORY_NONE) {
+          root[MQTT_ENTITY_CATEGORY] = EntityCategoryMqttStrings::get_progmem_str(
+              static_cast<uint8_t>(entity_category), static_cast<uint8_t>(ENTITY_CATEGORY_CONFIG));
         }
 
         if (config.state_topic) {
@@ -249,7 +249,7 @@ bool MQTTComponent::send_discovery_() {
         if (discovery_info.unique_id_generator == MQTT_MAC_ADDRESS_UNIQUE_ID_GENERATOR) {
           char friendly_name_hash[9];
           buf_append_printf(friendly_name_hash, sizeof(friendly_name_hash), 0, "%08" PRIx32,
-                            fnv1_hash(this->friendly_name_()));
+                            fnv1_hash(this->friendly_name_().c_str()));
           // Format: mac-component_type-hash (e.g. "aabbccddeeff-sensor-12345678")
           // MAC (12) + "-" (1) + domain (max 20) + "-" (1) + hash (8) + null (1) = 43
           char unique_id[MAC_ADDRESS_BUFFER_SIZE + ESPHOME_DOMAIN_MAX_LEN + 11];
@@ -415,7 +415,7 @@ void MQTTComponent::schedule_resend_state() { this->resend_state_ = true; }
 bool MQTTComponent::is_connected_() const { return global_mqtt_client->is_connected(); }
 
 // Pull these properties from EntityBase if not overridden
-std::string MQTTComponent::friendly_name_() const { return this->get_entity()->get_name(); }
+const StringRef &MQTTComponent::friendly_name_() const { return this->get_entity()->get_name(); }
 StringRef MQTTComponent::get_default_object_id_to_(std::span<char, OBJECT_ID_MAX_LEN> buf) const {
   return this->get_entity()->get_object_id_to(buf);
 }

esphome/components/mqtt/mqtt_component.h

@@ -32,6 +32,10 @@ static constexpr size_t MQTT_TOPIC_PREFIX_MAX_LEN = 64;  // Validated in Python:
 // Format: prefix + "/" + type + "/" + object_id + "/" + suffix + null
 static constexpr size_t MQTT_DEFAULT_TOPIC_MAX_LEN =
     MQTT_TOPIC_PREFIX_MAX_LEN + 1 + MQTT_COMPONENT_TYPE_MAX_LEN + 1 + OBJECT_ID_MAX_LEN + 1 + MQTT_SUFFIX_MAX_LEN + 1;
+static constexpr size_t MQTT_DISCOVERY_PREFIX_MAX_LEN = 64;  // Validated in Python: cv.Length(max=64)
+// Format: prefix + "/" + type + "/" + name + "/" + object_id + "/config" + null
+static constexpr size_t MQTT_DISCOVERY_TOPIC_MAX_LEN = MQTT_DISCOVERY_PREFIX_MAX_LEN + 1 + MQTT_COMPONENT_TYPE_MAX_LEN +
+                                                       1 + ESPHOME_DEVICE_NAME_MAX_LEN + 1 + OBJECT_ID_MAX_LEN + 7 + 1;
 
 class MQTTComponent;  // Forward declaration
 void log_mqtt_component(const char *tag, MQTTComponent *obj, bool state_topic, bool command_topic);
@@ -263,8 +267,9 @@ class MQTTComponent : public Component {
   void subscribe_json(const std::string &topic, const mqtt_json_callback_t &callback, uint8_t qos = 0);
 
  protected:
-  /// Helper method to get the discovery topic for this component.
-  std::string get_discovery_topic_(const MQTTDiscoveryInfo &discovery_info) const;
+  /// Helper method to get the discovery topic for this component into a buffer.
+  StringRef get_discovery_topic_to_(std::span<char, MQTT_DISCOVERY_TOPIC_MAX_LEN> buf,
+                                    const MQTTDiscoveryInfo &discovery_info) const;
 
   /** Get this components state/command/... topic into a buffer.
    *
@@ -288,7 +293,7 @@ class MQTTComponent : public Component {
   virtual const EntityBase *get_entity() const = 0;
 
   /// Get the friendly name of this MQTT component.
-  std::string friendly_name_() const;
+  const StringRef &friendly_name_() const;
 
   /// Get the icon field of this component as StringRef
   StringRef get_icon_ref_() const;

esphome/components/mqtt/mqtt_number.cpp

@@ -1,5 +1,6 @@
 #include "mqtt_number.h"
 #include "esphome/core/log.h"
+#include "esphome/core/progmem.h"
 
 #include "mqtt_const.h"
 
@@ -12,6 +13,9 @@ static const char *const TAG = "mqtt.number";
 
 using namespace esphome::number;
 
+// Number mode MQTT strings indexed by NumberMode enum: AUTO(0) is skipped, BOX(1), SLIDER(2)
+PROGMEM_STRING_TABLE(NumberMqttModeStrings, "", "box", "slider");
+
 MQTTNumberComponent::MQTTNumberComponent(Number *number) : number_(number) {}
 
 void MQTTNumberComponent::setup() {
@@ -48,15 +52,10 @@ void MQTTNumberComponent::send_discovery(JsonObject root, mqtt::SendDiscoveryCon
   if (!unit_of_measurement.empty()) {
     root[MQTT_UNIT_OF_MEASUREMENT] = unit_of_measurement;
   }
-  switch (this->number_->traits.get_mode()) {
-    case NUMBER_MODE_AUTO:
-      break;
-    case NUMBER_MODE_BOX:
-      root[MQTT_MODE] = "box";
-      break;
-    case NUMBER_MODE_SLIDER:
-      root[MQTT_MODE] = "slider";
-      break;
+  const auto mode = this->number_->traits.get_mode();
+  if (mode != NUMBER_MODE_AUTO) {
+    root[MQTT_MODE] =
+        NumberMqttModeStrings::get_progmem_str(static_cast<uint8_t>(mode), static_cast<uint8_t>(NUMBER_MODE_BOX));
   }
   const auto device_class = this->number_->traits.get_device_class_ref();
   if (!device_class.empty()) {

esphome/components/mqtt/mqtt_text.cpp

@@ -1,5 +1,6 @@
 #include "mqtt_text.h"
 #include "esphome/core/log.h"
+#include "esphome/core/progmem.h"
 
 #include "mqtt_const.h"
 
@@ -12,6 +13,9 @@ static const char *const TAG = "mqtt.text";
 
 using namespace esphome::text;
 
+// Text mode MQTT strings indexed by TextMode enum (0-1): TEXT, PASSWORD
+PROGMEM_STRING_TABLE(TextMqttModeStrings, "text", "password");
+
 MQTTTextComponent::MQTTTextComponent(Text *text) : text_(text) {}
 
 void MQTTTextComponent::setup() {
@@ -34,14 +38,8 @@ const EntityBase *MQTTTextComponent::get_entity() const { return this->text_; }
 
 void MQTTTextComponent::send_discovery(JsonObject root, mqtt::SendDiscoveryConfig &config) {
   // NOLINTNEXTLINE(clang-analyzer-cplusplus.NewDeleteLeaks) false positive with ArduinoJson
-  switch (this->text_->traits.get_mode()) {
-    case TEXT_MODE_TEXT:
-      root[MQTT_MODE] = "text";
-      break;
-    case TEXT_MODE_PASSWORD:
-      root[MQTT_MODE] = "password";
-      break;
-  }
+  root[MQTT_MODE] = TextMqttModeStrings::get_progmem_str(static_cast<uint8_t>(this->text_->traits.get_mode()),
+                                                         static_cast<uint8_t>(TEXT_MODE_TEXT));
 
   config.command_topic = true;
 }

esphome/components/ms8607/ms8607.cpp

@@ -72,53 +72,55 @@ void MS8607Component::setup() {
 
   // I do not know why the device sometimes NACKs the reset command, but
   // try 3 times in case it's a transitory issue on this boot
-  this->set_retry(
-      "reset", 5, 3,
-      [this](const uint8_t remaining_setup_attempts) {
-        ESP_LOGD(TAG, "Resetting both I2C addresses: 0x%02X, 0x%02X", this->address_,
-                 this->humidity_device_->get_address());
-        // I believe sending the reset command to both addresses is preferable to
-        // skipping humidity if PT fails for some reason.
-        // However, only consider the reset successful if they both ACK
-        bool const pt_successful = this->write_bytes(MS8607_PT_CMD_RESET, nullptr, 0);
-        bool const h_successful = this->humidity_device_->write_bytes(MS8607_CMD_H_RESET, nullptr, 0);
+  // Backoff: executes at now, +5ms, +30ms
+  this->reset_attempts_remaining_ = 3;
+  this->reset_interval_ = 5;
+  this->try_reset_();
+}
 
-        if (!(pt_successful && h_successful)) {
-          ESP_LOGE(TAG, "Resetting I2C devices failed");
-          if (!pt_successful && !h_successful) {
-            this->error_code_ = ErrorCode::PTH_RESET_FAILED;
-          } else if (!pt_successful) {
-            this->error_code_ = ErrorCode::PT_RESET_FAILED;
-          } else {
-            this->error_code_ = ErrorCode::H_RESET_FAILED;
-          }
+void MS8607Component::try_reset_() {
+  ESP_LOGD(TAG, "Resetting both I2C addresses: 0x%02X, 0x%02X", this->address_, this->humidity_device_->get_address());
+  // I believe sending the reset command to both addresses is preferable to
+  // skipping humidity if PT fails for some reason.
+  // However, only consider the reset successful if they both ACK
+  bool const pt_successful = this->write_bytes(MS8607_PT_CMD_RESET, nullptr, 0);
+  bool const h_successful = this->humidity_device_->write_bytes(MS8607_CMD_H_RESET, nullptr, 0);
 
-          if (remaining_setup_attempts > 0) {
-            this->status_set_error();
-          } else {
-            this->mark_failed();
-          }
-          return RetryResult::RETRY;
-        }
+  if (!(pt_successful && h_successful)) {
+    ESP_LOGE(TAG, "Resetting I2C devices failed");
+    if (!pt_successful && !h_successful) {
+      this->error_code_ = ErrorCode::PTH_RESET_FAILED;
+    } else if (!pt_successful) {
+      this->error_code_ = ErrorCode::PT_RESET_FAILED;
+    } else {
+      this->error_code_ = ErrorCode::H_RESET_FAILED;
+    }
 
-        this->setup_status_ = SetupStatus::NEEDS_PROM_READ;
-        this->error_code_ = ErrorCode::NONE;
-        this->status_clear_error();
+    if (--this->reset_attempts_remaining_ > 0) {
+      uint32_t delay = this->reset_interval_;
+      this->reset_interval_ *= 5;
+      this->set_timeout("reset", delay, [this]() { this->try_reset_(); });
+      this->status_set_error();
+    } else {
+      this->mark_failed();
+    }
+    return;
+  }
 
-        // 15ms delay matches datasheet, Adafruit_MS8607 & SparkFun_PHT_MS8607_Arduino_Library
-        this->set_timeout("prom-read", 15, [this]() {
-          if (this->read_calibration_values_from_prom_()) {
-            this->setup_status_ = SetupStatus::SUCCESSFUL;
-            this->status_clear_error();
-          } else {
-            this->mark_failed();
-            return;
-          }
-        });
+  this->setup_status_ = SetupStatus::NEEDS_PROM_READ;
+  this->error_code_ = ErrorCode::NONE;
+  this->status_clear_error();
 
-        return RetryResult::DONE;
-      },
-      5.0f);  // executes at now, +5ms, +25ms
+  // 15ms delay matches datasheet, Adafruit_MS8607 & SparkFun_PHT_MS8607_Arduino_Library
+  this->set_timeout("prom-read", 15, [this]() {
+    if (this->read_calibration_values_from_prom_()) {
+      this->setup_status_ = SetupStatus::SUCCESSFUL;
+      this->status_clear_error();
+    } else {
+      this->mark_failed();
+      return;
+    }
+  });
 }
 
 void MS8607Component::update() {

esphome/components/ms8607/ms8607.h

@@ -44,6 +44,8 @@ class MS8607Component : public PollingComponent, public i2c::I2CDevice {
   void set_humidity_device(MS8607HumidityDevice *humidity_device) { humidity_device_ = humidity_device; }
 
  protected:
+  /// Attempt to reset both I2C devices, retrying with backoff on failure
+  void try_reset_();
   /**
    Read and store the Pressure & Temperature calibration settings from the PROM.
    Intended to be called during setup(), this will set the `failure_reason_`
@@ -102,6 +104,8 @@ class MS8607Component : public PollingComponent, public i2c::I2CDevice {
   enum class SetupStatus;
   /// Current step in the multi-step & possibly delayed setup() process
   SetupStatus setup_status_;
+  uint32_t reset_interval_{5};
+  uint8_t reset_attempts_remaining_{0};
 };
 
 }  // namespace ms8607

esphome/components/nextion/nextion.cpp

@@ -397,11 +397,17 @@ bool Nextion::remove_from_q_(bool report_empty) {
 }
 
 void Nextion::process_serial_() {
-  uint8_t d;
+  // Read all available bytes in batches to reduce UART call overhead.
+  size_t avail = this->available();
+  uint8_t buf[64];
+  while (avail > 0) {
+    size_t to_read = std::min(avail, sizeof(buf));
+    if (!this->read_array(buf, to_read)) {
+      break;
+    }
+    avail -= to_read;
 
-  while (this->available()) {
-    read_byte(&d);
-    this->command_data_ += d;
+    this->command_data_.append(reinterpret_cast<const char *>(buf), to_read);
   }
 }
 // nextion.tech/instruction-set/

esphome/components/packet_transport/packet_transport.cpp

@@ -396,9 +396,9 @@ static bool process_rolling_code(Provider &provider, PacketDecoder &decoder) {
 /**
  * Process a received packet
  */
-void PacketTransport::process_(const std::vector<uint8_t> &data) {
+void PacketTransport::process_(std::span<const uint8_t> data) {
   auto ping_key_seen = !this->ping_pong_enable_;
-  PacketDecoder decoder((data.data()), data.size());
+  PacketDecoder decoder(data.data(), data.size());
   char namebuf[256]{};
   uint8_t byte;
   FuData rdata{};

esphome/components/packet_transport/packet_transport.h

@@ -9,8 +9,9 @@
 #include "esphome/components/binary_sensor/binary_sensor.h"
 #endif
 
-#include <vector>
 #include <map>
+#include <span>
+#include <vector>
 
 /**
  * Providing packet encoding functions for exchanging data with a remote host.
@@ -113,7 +114,7 @@ class PacketTransport : public PollingComponent {
   virtual bool should_send() { return true; }
 
   // to be called by child classes when a data packet is received.
-  void process_(const std::vector<uint8_t> &data);
+  void process_(std::span<const uint8_t> data);
   void send_data_(bool all);
   void flush_();
   void add_data_(uint8_t key, const char *id, float data);

esphome/components/pipsolar/pipsolar.cpp

@@ -13,9 +13,12 @@ void Pipsolar::setup() {
 }
 
 void Pipsolar::empty_uart_buffer_() {
-  uint8_t byte;
-  while (this->available()) {
-    this->read_byte(&byte);
+  uint8_t buf[64];
+  size_t avail;
+  while ((avail = this->available()) > 0) {
+    if (!this->read_array(buf, std::min(avail, sizeof(buf)))) {
+      break;
+    }
   }
 }
 
@@ -94,32 +97,47 @@ void Pipsolar::loop() {
   }
 
   if (this->state_ == STATE_COMMAND || this->state_ == STATE_POLL) {
-    while (this->available()) {
-      uint8_t byte;
-      this->read_byte(&byte);
-
-      // make sure data and null terminator fit in buffer
-      if (this->read_pos_ >= PIPSOLAR_READ_BUFFER_LENGTH - 1) {
-        this->read_pos_ = 0;
-        this->empty_uart_buffer_();
-        ESP_LOGW(TAG, "response data too long, discarding.");
+    size_t avail = this->available();
+    while (avail > 0) {
+      uint8_t buf[64];
+      size_t to_read = std::min(avail, sizeof(buf));
+      if (!this->read_array(buf, to_read)) {
         break;
       }
-      this->read_buffer_[this->read_pos_] = byte;
-      this->read_pos_++;
+      avail -= to_read;
+      bool done = false;
+      for (size_t i = 0; i < to_read; i++) {
+        uint8_t byte = buf[i];
 
-      // end of answer
-      if (byte == 0x0D) {
-        this->read_buffer_[this->read_pos_] = 0;
-        this->empty_uart_buffer_();
-        if (this->state_ == STATE_POLL) {
-          this->state_ = STATE_POLL_COMPLETE;
+        // make sure data and null terminator fit in buffer
+        if (this->read_pos_ >= PIPSOLAR_READ_BUFFER_LENGTH - 1) {
+          this->read_pos_ = 0;
+          this->empty_uart_buffer_();
+          ESP_LOGW(TAG, "response data too long, discarding.");
+          done = true;
+          break;
         }
-        if (this->state_ == STATE_COMMAND) {
-          this->state_ = STATE_COMMAND_COMPLETE;
+        this->read_buffer_[this->read_pos_] = byte;
+        this->read_pos_++;
+
+        // end of answer
+        if (byte == 0x0D) {
+          this->read_buffer_[this->read_pos_] = 0;
+          this->empty_uart_buffer_();
+          if (this->state_ == STATE_POLL) {
+            this->state_ = STATE_POLL_COMPLETE;
+          }
+          if (this->state_ == STATE_COMMAND) {
+            this->state_ = STATE_COMMAND_COMPLETE;
+          }
+          done = true;
+          break;
         }
       }
-    }  // available
+      if (done) {
+        break;
+      }
+    }
   }
   if (this->state_ == STATE_COMMAND) {
     if (millis() - this->command_start_millis_ > esphome::pipsolar::Pipsolar::COMMAND_TIMEOUT) {

esphome/components/pylontech/pylontech.cpp

@@ -56,17 +56,23 @@ void PylontechComponent::setup() {
 void PylontechComponent::update() { this->write_str("pwr\n"); }
 
 void PylontechComponent::loop() {
-  if (this->available() > 0) {
+  size_t avail = this->available();
+  if (avail > 0) {
     // pylontech sends a lot of data very suddenly
     // we need to quickly put it all into our own buffer, otherwise the uart's buffer will overflow
-    uint8_t data;
     int recv = 0;
-    while (this->available() > 0) {
-      if (this->read_byte(&data)) {
-        buffer_[buffer_index_write_] += (char) data;
-        recv++;
-        if (buffer_[buffer_index_write_].back() == static_cast<char>(ASCII_LF) ||
-            buffer_[buffer_index_write_].length() >= MAX_DATA_LENGTH_BYTES) {
+    uint8_t buf[64];
+    while (avail > 0) {
+      size_t to_read = std::min(avail, sizeof(buf));
+      if (!this->read_array(buf, to_read)) {
+        break;
+      }
+      avail -= to_read;
+      recv += to_read;
+
+      for (size_t i = 0; i < to_read; i++) {
+        buffer_[buffer_index_write_] += (char) buf[i];
+        if (buf[i] == ASCII_LF || buffer_[buffer_index_write_].length() >= MAX_DATA_LENGTH_BYTES) {
           // complete line received
           buffer_index_write_ = (buffer_index_write_ + 1) % NUM_BUFFERS;
         }

esphome/components/rd03d/rd03d.cpp

@@ -1,4 +1,5 @@
 #include "rd03d.h"
+#include "esphome/core/helpers.h"
 #include "esphome/core/log.h"
 #include <cmath>
 
@@ -80,37 +81,47 @@ void RD03DComponent::dump_config() {
 }
 
 void RD03DComponent::loop() {
-  while (this->available()) {
-    uint8_t byte = this->read();
-    ESP_LOGVV(TAG, "Received byte: 0x%02X, buffer_pos: %d", byte, this->buffer_pos_);
+  // Read all available bytes in batches to reduce UART call overhead.
+  size_t avail = this->available();
+  uint8_t buf[64];
+  while (avail > 0) {
+    size_t to_read = std::min(avail, sizeof(buf));
+    if (!this->read_array(buf, to_read)) {
+      break;
+    }
+    avail -= to_read;
+    for (size_t i = 0; i < to_read; i++) {
+      uint8_t byte = buf[i];
+      ESP_LOGVV(TAG, "Received byte: 0x%02X, buffer_pos: %d", byte, this->buffer_pos_);
 
-    // Check if we're looking for frame header
-    if (this->buffer_pos_ < FRAME_HEADER_SIZE) {
-      if (byte == FRAME_HEADER[this->buffer_pos_]) {
-        this->buffer_[this->buffer_pos_++] = byte;
-      } else if (byte == FRAME_HEADER[0]) {
-        // Start over if we see a potential new header
-        this->buffer_[0] = byte;
-        this->buffer_pos_ = 1;
-      } else {
+      // Check if we're looking for frame header
+      if (this->buffer_pos_ < FRAME_HEADER_SIZE) {
+        if (byte == FRAME_HEADER[this->buffer_pos_]) {
+          this->buffer_[this->buffer_pos_++] = byte;
+        } else if (byte == FRAME_HEADER[0]) {
+          // Start over if we see a potential new header
+          this->buffer_[0] = byte;
+          this->buffer_pos_ = 1;
+        } else {
+          this->buffer_pos_ = 0;
+        }
+        continue;
+      }
+
+      // Accumulate data bytes
+      this->buffer_[this->buffer_pos_++] = byte;
+
+      // Check if we have a complete frame
+      if (this->buffer_pos_ == FRAME_SIZE) {
+        // Validate footer
+        if (this->buffer_[FRAME_SIZE - 2] == FRAME_FOOTER[0] && this->buffer_[FRAME_SIZE - 1] == FRAME_FOOTER[1]) {
+          this->process_frame_();
+        } else {
+          ESP_LOGW(TAG, "Invalid frame footer: 0x%02X 0x%02X (expected 0x55 0xCC)", this->buffer_[FRAME_SIZE - 2],
+                   this->buffer_[FRAME_SIZE - 1]);
+        }
         this->buffer_pos_ = 0;
       }
-      continue;
-    }
-
-    // Accumulate data bytes
-    this->buffer_[this->buffer_pos_++] = byte;
-
-    // Check if we have a complete frame
-    if (this->buffer_pos_ == FRAME_SIZE) {
-      // Validate footer
-      if (this->buffer_[FRAME_SIZE - 2] == FRAME_FOOTER[0] && this->buffer_[FRAME_SIZE - 1] == FRAME_FOOTER[1]) {
-        this->process_frame_();
-      } else {
-        ESP_LOGW(TAG, "Invalid frame footer: 0x%02X 0x%02X (expected 0x55 0xCC)", this->buffer_[FRAME_SIZE - 2],
-                 this->buffer_[FRAME_SIZE - 1]);
-      }
-      this->buffer_pos_ = 0;
     }
   }
 }

esphome/components/rf_bridge/rf_bridge.cpp

@@ -136,14 +136,21 @@ void RFBridgeComponent::loop() {
     this->last_bridge_byte_ = now;
   }
 
-  while (this->available()) {
-    uint8_t byte;
-    this->read_byte(&byte);
-    if (this->parse_bridge_byte_(byte)) {
-      ESP_LOGVV(TAG, "Parsed: 0x%02X", byte);
-      this->last_bridge_byte_ = now;
-    } else {
-      this->rx_buffer_.clear();
+  size_t avail = this->available();
+  while (avail > 0) {
+    uint8_t buf[64];
+    size_t to_read = std::min(avail, sizeof(buf));
+    if (!this->read_array(buf, to_read)) {
+      break;
+    }
+    avail -= to_read;
+    for (size_t i = 0; i < to_read; i++) {
+      if (this->parse_bridge_byte_(buf[i])) {
+        ESP_LOGVV(TAG, "Parsed: 0x%02X", buf[i]);
+        this->last_bridge_byte_ = now;
+      } else {
+        this->rx_buffer_.clear();
+      }
     }
   }
 }

esphome/components/rtttl/rtttl.cpp

@@ -2,7 +2,6 @@
 #include <cmath>
 #include "esphome/core/hal.h"
 #include "esphome/core/log.h"
-#include "esphome/core/progmem.h"
 
 namespace esphome {
 namespace rtttl {
@@ -376,13 +375,22 @@ void Rtttl::loop() {
 }
 
 #if ESPHOME_LOG_LEVEL >= ESPHOME_LOG_LEVEL_VERBOSE
-// RTTTL state strings indexed by State enum (0-4): STOPPED, INIT, STARTING, RUNNING, STOPPING, plus UNKNOWN fallback
-PROGMEM_STRING_TABLE(RtttlStateStrings, "STATE_STOPPED", "STATE_INIT", "STATE_STARTING", "STATE_RUNNING",
-                     "STATE_STOPPING", "UNKNOWN");
-
 static const LogString *state_to_string(State state) {
-  return RtttlStateStrings::get_log_str(static_cast<uint8_t>(state), RtttlStateStrings::LAST_INDEX);
-}
+  switch (state) {
+    case STATE_STOPPED:
+      return LOG_STR("STATE_STOPPED");
+    case STATE_STARTING:
+      return LOG_STR("STATE_STARTING");
+    case STATE_RUNNING:
+      return LOG_STR("STATE_RUNNING");
+    case STATE_STOPPING:
+      return LOG_STR("STATE_STOPPING");
+    case STATE_INIT:
+      return LOG_STR("STATE_INIT");
+    default:
+      return LOG_STR("UNKNOWN");
+  }
+};
 #endif
 
 void Rtttl::set_state_(State state) {

esphome/components/seeed_mr24hpc1/seeed_mr24hpc1.cpp

@@ -106,12 +106,19 @@ void MR24HPC1Component::update_() {
 
 // main loop
 void MR24HPC1Component::loop() {
-  uint8_t byte;
+  // Read all available bytes in batches to reduce UART call overhead.
+  size_t avail = this->available();
+  uint8_t buf[64];
+  while (avail > 0) {
+    size_t to_read = std::min(avail, sizeof(buf));
+    if (!this->read_array(buf, to_read)) {
+      break;
+    }
+    avail -= to_read;
 
-  // Is there data on the serial port
-  while (this->available()) {
-    this->read_byte(&byte);
-    this->r24_split_data_frame_(byte);  // split data frame
+    for (size_t i = 0; i < to_read; i++) {
+      this->r24_split_data_frame_(buf[i]);  // split data frame
+    }
   }
 
   if ((this->s_output_info_switch_flag_ == OUTPUT_SWTICH_OFF) &&

esphome/components/seeed_mr60bha2/seeed_mr60bha2.cpp

@@ -30,14 +30,21 @@ void MR60BHA2Component::dump_config() {
 
 // main loop
 void MR60BHA2Component::loop() {
-  uint8_t byte;
+  // Read all available bytes in batches to reduce UART call overhead.
+  size_t avail = this->available();
+  uint8_t buf[64];
+  while (avail > 0) {
+    size_t to_read = std::min(avail, sizeof(buf));
+    if (!this->read_array(buf, to_read)) {
+      break;
+    }
+    avail -= to_read;
 
-  // Is there data on the serial port
-  while (this->available()) {
-    this->read_byte(&byte);
-    this->rx_message_.push_back(byte);
-    if (!this->validate_message_()) {
-      this->rx_message_.clear();
+    for (size_t i = 0; i < to_read; i++) {
+      this->rx_message_.push_back(buf[i]);
+      if (!this->validate_message_()) {
+        this->rx_message_.clear();
+      }
     }
   }
 }

esphome/components/seeed_mr60fda2/seeed_mr60fda2.cpp

@@ -49,12 +49,19 @@ void MR60FDA2Component::setup() {
 
 // main loop
 void MR60FDA2Component::loop() {
-  uint8_t byte;
+  // Read all available bytes in batches to reduce UART call overhead.
+  size_t avail = this->available();
+  uint8_t buf[64];
+  while (avail > 0) {
+    size_t to_read = std::min(avail, sizeof(buf));
+    if (!this->read_array(buf, to_read)) {
+      break;
+    }
+    avail -= to_read;
 
-  // Is there data on the serial port
-  while (this->available()) {
-    this->read_byte(&byte);
-    this->split_frame_(byte);  // split data frame
+    for (size_t i = 0; i < to_read; i++) {
+      this->split_frame_(buf[i]);  // split data frame
+    }
   }
 }
 

esphome/components/sensor/filter.cpp

@@ -9,6 +9,11 @@ namespace esphome::sensor {
 
 static const char *const TAG = "sensor.filter";
 
+// Filter scheduler IDs.
+// Each filter is its own Component instance, so the scheduler scopes
+// IDs by component pointer — no risk of collisions between instances.
+constexpr uint32_t FILTER_ID = 0;
+
 // Filter
 void Filter::input(float value) {
   ESP_LOGVV(TAG, "Filter(%p)::input(%f)", this, value);
@@ -191,7 +196,7 @@ optional<float> ThrottleAverageFilter::new_value(float value) {
   return {};
 }
 void ThrottleAverageFilter::setup() {
-  this->set_interval("throttle_average", this->time_period_, [this]() {
+  this->set_interval(FILTER_ID, this->time_period_, [this]() {
     ESP_LOGVV(TAG, "ThrottleAverageFilter(%p)::interval(sum=%f, n=%i)", this, this->sum_, this->n_);
     if (this->n_ == 0) {
       if (this->have_nan_)
@@ -383,7 +388,7 @@ optional<float> TimeoutFilterConfigured::new_value(float value) {
 
 // DebounceFilter
 optional<float> DebounceFilter::new_value(float value) {
-  this->set_timeout("debounce", this->time_period_, [this, value]() { this->output(value); });
+  this->set_timeout(FILTER_ID, this->time_period_, [this, value]() { this->output(value); });
 
   return {};
 }
@@ -406,7 +411,7 @@ optional<float> HeartbeatFilter::new_value(float value) {
 }
 
 void HeartbeatFilter::setup() {
-  this->set_interval("heartbeat", this->time_period_, [this]() {
+  this->set_interval(FILTER_ID, this->time_period_, [this]() {
     ESP_LOGVV(TAG, "HeartbeatFilter(%p)::interval(has_value=%s, last_input=%f)", this, YESNO(this->has_value_),
               this->last_input_);
     if (!this->has_value_)

esphome/components/speaker/media_player/speaker_media_player.cpp

@@ -103,6 +103,20 @@ void SpeakerMediaPlayer::set_playlist_delay_ms(AudioPipelineType pipeline_type,
   }
 }
 
+void SpeakerMediaPlayer::stop_and_unpause_media_() {
+  this->media_pipeline_->stop();
+  this->unpause_media_remaining_ = 3;
+  this->set_interval("unpause_med", 50, [this]() {
+    if (this->media_pipeline_state_ == AudioPipelineState::STOPPED) {
+      this->cancel_interval("unpause_med");
+      this->media_pipeline_->set_pause_state(false);
+      this->is_paused_ = false;
+    } else if (--this->unpause_media_remaining_ == 0) {
+      this->cancel_interval("unpause_med");
+    }
+  });
+}
+
 void SpeakerMediaPlayer::watch_media_commands_() {
   if (!this->is_ready()) {
     return;
@@ -144,15 +158,7 @@ void SpeakerMediaPlayer::watch_media_commands_() {
           if (this->is_paused_) {
             // If paused, stop the media pipeline and unpause it after confirming its stopped. This avoids playing a
             // short segment of the paused file before starting the new one.
-            this->media_pipeline_->stop();
-            this->set_retry("unpause_med", 50, 3, [this](const uint8_t remaining_attempts) {
-              if (this->media_pipeline_state_ == AudioPipelineState::STOPPED) {
-                this->media_pipeline_->set_pause_state(false);
-                this->is_paused_ = false;
-                return RetryResult::DONE;
-              }
-              return RetryResult::RETRY;
-            });
+            this->stop_and_unpause_media_();
           } else {
             // Not paused, just directly start the file
             if (media_command.file.has_value()) {
@@ -197,27 +203,21 @@ void SpeakerMediaPlayer::watch_media_commands_() {
               this->cancel_timeout("next_ann");
               this->announcement_playlist_.clear();
               this->announcement_pipeline_->stop();
-              this->set_retry("unpause_ann", 50, 3, [this](const uint8_t remaining_attempts) {
+              this->unpause_announcement_remaining_ = 3;
+              this->set_interval("unpause_ann", 50, [this]() {
                 if (this->announcement_pipeline_state_ == AudioPipelineState::STOPPED) {
+                  this->cancel_interval("unpause_ann");
                   this->announcement_pipeline_->set_pause_state(false);
-                  return RetryResult::DONE;
+                } else if (--this->unpause_announcement_remaining_ == 0) {
+                  this->cancel_interval("unpause_ann");
                 }
-                return RetryResult::RETRY;
               });
             }
           } else {
             if (this->media_pipeline_ != nullptr) {
               this->cancel_timeout("next_media");
               this->media_playlist_.clear();
-              this->media_pipeline_->stop();
-              this->set_retry("unpause_med", 50, 3, [this](const uint8_t remaining_attempts) {
-                if (this->media_pipeline_state_ == AudioPipelineState::STOPPED) {
-                  this->media_pipeline_->set_pause_state(false);
-                  this->is_paused_ = false;
-                  return RetryResult::DONE;
-                }
-                return RetryResult::RETRY;
-              });
+              this->stop_and_unpause_media_();
             }
           }
 

esphome/components/speaker/media_player/speaker_media_player.h

@@ -112,6 +112,9 @@ class SpeakerMediaPlayer : public Component,
   /// media pipelines are defined.
   inline bool single_pipeline_() { return (this->media_speaker_ == nullptr); }
 
+  /// Stops the media pipeline and polls until stopped to unpause it, avoiding an audible glitch.
+  void stop_and_unpause_media_();
+
   // Processes commands from media_control_command_queue_.
   void watch_media_commands_();
 
@@ -141,6 +144,8 @@ class SpeakerMediaPlayer : public Component,
 
   bool is_paused_{false};
   bool is_muted_{false};
+  uint8_t unpause_media_remaining_{0};
+  uint8_t unpause_announcement_remaining_{0};
 
   // The amount to change the volume on volume up/down commands
   float volume_increment_;

esphome/components/template/alarm_control_panel/template_alarm_control_panel.cpp

@@ -5,6 +5,7 @@
 #include "esphome/core/application.h"
 #include "esphome/core/helpers.h"
 #include "esphome/core/log.h"
+#include "esphome/core/progmem.h"
 
 namespace esphome::template_ {
 
@@ -28,18 +29,11 @@ void TemplateAlarmControlPanel::add_sensor(binary_sensor::BinarySensor *sensor,
   this->sensor_data_.push_back(sd);
 };
 
+// Alarm sensor type strings indexed by AlarmSensorType enum (0-3): DELAYED, INSTANT, DELAYED_FOLLOWER, INSTANT_ALWAYS
+PROGMEM_STRING_TABLE(AlarmSensorTypeStrings, "delayed", "instant", "delayed_follower", "instant_always");
+
 static const LogString *sensor_type_to_string(AlarmSensorType type) {
-  switch (type) {
-    case ALARM_SENSOR_TYPE_INSTANT:
-      return LOG_STR("instant");
-    case ALARM_SENSOR_TYPE_DELAYED_FOLLOWER:
-      return LOG_STR("delayed_follower");
-    case ALARM_SENSOR_TYPE_INSTANT_ALWAYS:
-      return LOG_STR("instant_always");
-    case ALARM_SENSOR_TYPE_DELAYED:
-    default:
-      return LOG_STR("delayed");
-  }
+  return AlarmSensorTypeStrings::get_log_str(static_cast<uint8_t>(type), 0);
 }
 #endif
 

esphome/components/template/alarm_control_panel/template_alarm_control_panel.h

@@ -26,7 +26,7 @@ enum BinarySensorFlags : uint16_t {
   BINARY_SENSOR_MODE_BYPASS_AUTO = 1 << 4,
 };
 
-enum AlarmSensorType : uint16_t {
+enum AlarmSensorType : uint8_t {
   ALARM_SENSOR_TYPE_DELAYED = 0,
   ALARM_SENSOR_TYPE_INSTANT,
   ALARM_SENSOR_TYPE_DELAYED_FOLLOWER,

esphome/components/template/water_heater/__init__.py

@@ -46,6 +46,7 @@ CONFIG_SCHEMA = (
                 RESTORE_MODES, upper=True
             ),
             cv.Optional(CONF_CURRENT_TEMPERATURE): cv.returning_lambda,
+            cv.Optional(CONF_TARGET_TEMPERATURE): cv.returning_lambda,
             cv.Optional(CONF_MODE): cv.returning_lambda,
             cv.Optional(CONF_SUPPORTED_MODES): cv.ensure_list(
                 water_heater.validate_water_heater_mode
@@ -78,6 +79,14 @@ async def to_code(config: ConfigType) -> None:
         )
         cg.add(var.set_current_temperature_lambda(template_))
 
+    if CONF_TARGET_TEMPERATURE in config:
+        template_ = await cg.process_lambda(
+            config[CONF_TARGET_TEMPERATURE],
+            [],
+            return_type=cg.optional.template(cg.float_),
+        )
+        cg.add(var.set_target_temperature_lambda(template_))
+
     if CONF_MODE in config:
         template_ = await cg.process_lambda(
             config[CONF_MODE],

esphome/components/template/water_heater/template_water_heater.cpp

@@ -16,7 +16,8 @@ void TemplateWaterHeater::setup() {
       restore->perform();
     }
   }
-  if (!this->current_temperature_f_.has_value() && !this->mode_f_.has_value())
+  if (!this->current_temperature_f_.has_value() && !this->target_temperature_f_.has_value() &&
+      !this->mode_f_.has_value())
     this->disable_loop();
 }
 
@@ -28,6 +29,9 @@ water_heater::WaterHeaterTraits TemplateWaterHeater::traits() {
   }
 
   traits.set_supports_current_temperature(true);
+  if (this->target_temperature_f_.has_value()) {
+    traits.add_feature_flags(water_heater::WATER_HEATER_SUPPORTS_TARGET_TEMPERATURE);
+  }
   return traits;
 }
 
@@ -42,6 +46,14 @@ void TemplateWaterHeater::loop() {
     }
   }
 
+  auto target_temp = this->target_temperature_f_.call();
+  if (target_temp.has_value()) {
+    if (*target_temp != this->target_temperature_) {
+      this->target_temperature_ = *target_temp;
+      changed = true;
+    }
+  }
+
   auto new_mode = this->mode_f_.call();
   if (new_mode.has_value()) {
     if (*new_mode != this->mode_) {

esphome/components/template/water_heater/template_water_heater.h

@@ -20,6 +20,9 @@ class TemplateWaterHeater : public Component, public water_heater::WaterHeater {
   template<typename F> void set_current_temperature_lambda(F &&f) {
     this->current_temperature_f_.set(std::forward<F>(f));
   }
+  template<typename F> void set_target_temperature_lambda(F &&f) {
+    this->target_temperature_f_.set(std::forward<F>(f));
+  }
   template<typename F> void set_mode_lambda(F &&f) { this->mode_f_.set(std::forward<F>(f)); }
 
   void set_optimistic(bool optimistic) { this->optimistic_ = optimistic; }
@@ -44,6 +47,7 @@ class TemplateWaterHeater : public Component, public water_heater::WaterHeater {
   // Ordered to minimize padding on 32-bit: 4-byte members first, then smaller
   Trigger<> set_trigger_;
   TemplateLambda<float> current_temperature_f_;
+  TemplateLambda<float> target_temperature_f_;
   TemplateLambda<water_heater::WaterHeaterMode> mode_f_;
   TemplateWaterHeaterRestoreMode restore_mode_{WATER_HEATER_NO_RESTORE};
   water_heater::WaterHeaterModeMask supported_modes_;

esphome/components/tormatic/tormatic_cover.cpp

@@ -251,7 +251,7 @@ void Tormatic::stop_at_target_() {
 // Read a GateStatus from the unit. The unit only sends messages in response to
 // status requests or commands, so a message needs to be sent first.
 optional<GateStatus> Tormatic::read_gate_status_() {
-  if (this->available() < static_cast<int>(sizeof(MessageHeader))) {
+  if (this->available() < sizeof(MessageHeader)) {
     return {};
   }
 

esphome/components/tuya/tuya.cpp

@@ -31,10 +31,19 @@ void Tuya::setup() {
 }
 
 void Tuya::loop() {
-  while (this->available()) {
-    uint8_t c;
-    this->read_byte(&c);
-    this->handle_char_(c);
+  // Read all available bytes in batches to reduce UART call overhead.
+  size_t avail = this->available();
+  uint8_t buf[64];
+  while (avail > 0) {
+    size_t to_read = std::min(avail, sizeof(buf));
+    if (!this->read_array(buf, to_read)) {
+      break;
+    }
+    avail -= to_read;
+
+    for (size_t i = 0; i < to_read; i++) {
+      this->handle_char_(buf[i]);
+    }
   }
   process_command_queue_();
 }