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- import hashlib
- import re
- import time
- import uuid
- import logging
- from datetime import timedelta
- from pathlib import Path
- from typing import Callable, Optional
- import json
- import collections.abc
- from open_webui.env import SRC_LOG_LEVELS
- log = logging.getLogger(__name__)
- log.setLevel(SRC_LOG_LEVELS["MAIN"])
- def deep_update(d, u):
- for k, v in u.items():
- if isinstance(v, collections.abc.Mapping):
- d[k] = deep_update(d.get(k, {}), v)
- else:
- d[k] = v
- return d
- def get_message_list(messages, message_id):
- """
- Reconstructs a list of messages in order up to the specified message_id.
- :param message_id: ID of the message to reconstruct the chain
- :param messages: Message history dict containing all messages
- :return: List of ordered messages starting from the root to the given message
- """
- # Find the message by its id
- current_message = messages.get(message_id)
- if not current_message:
- return [] # Return empty list instead of None to prevent iteration errors
- # Reconstruct the chain by following the parentId links
- message_list = []
- while current_message:
- message_list.insert(
- 0, current_message
- ) # Insert the message at the beginning of the list
- parent_id = current_message.get("parentId") # Use .get() for safety
- current_message = messages.get(parent_id) if parent_id else None
- return message_list
- def get_messages_content(messages: list[dict]) -> str:
- return "\n".join(
- [
- f"{message['role'].upper()}: {get_content_from_message(message)}"
- for message in messages
- ]
- )
- def get_last_user_message_item(messages: list[dict]) -> Optional[dict]:
- for message in reversed(messages):
- if message["role"] == "user":
- return message
- return None
- def get_content_from_message(message: dict) -> Optional[str]:
- if isinstance(message["content"], list):
- for item in message["content"]:
- if item["type"] == "text":
- return item["text"]
- else:
- return message["content"]
- return None
- def get_last_user_message(messages: list[dict]) -> Optional[str]:
- message = get_last_user_message_item(messages)
- if message is None:
- return None
- return get_content_from_message(message)
- def get_last_assistant_message_item(messages: list[dict]) -> Optional[dict]:
- for message in reversed(messages):
- if message["role"] == "assistant":
- return message
- return None
- def get_last_assistant_message(messages: list[dict]) -> Optional[str]:
- for message in reversed(messages):
- if message["role"] == "assistant":
- return get_content_from_message(message)
- return None
- def get_system_message(messages: list[dict]) -> Optional[dict]:
- for message in messages:
- if message["role"] == "system":
- return message
- return None
- def remove_system_message(messages: list[dict]) -> list[dict]:
- return [message for message in messages if message["role"] != "system"]
- def pop_system_message(messages: list[dict]) -> tuple[Optional[dict], list[dict]]:
- return get_system_message(messages), remove_system_message(messages)
- def prepend_to_first_user_message_content(
- content: str, messages: list[dict]
- ) -> list[dict]:
- for message in messages:
- if message["role"] == "user":
- if isinstance(message["content"], list):
- for item in message["content"]:
- if item["type"] == "text":
- item["text"] = f"{content}\n{item['text']}"
- else:
- message["content"] = f"{content}\n{message['content']}"
- break
- return messages
- def add_or_update_system_message(
- content: str, messages: list[dict], append: bool = False
- ):
- """
- Adds a new system message at the beginning of the messages list
- or updates the existing system message at the beginning.
- :param msg: The message to be added or appended.
- :param messages: The list of message dictionaries.
- :return: The updated list of message dictionaries.
- """
- if messages and messages[0].get("role") == "system":
- if append:
- messages[0]["content"] = f"{messages[0]['content']}\n{content}"
- else:
- messages[0]["content"] = f"{content}\n{messages[0]['content']}"
- else:
- # Insert at the beginning
- messages.insert(0, {"role": "system", "content": content})
- return messages
- def add_or_update_user_message(content: str, messages: list[dict]):
- """
- Adds a new user message at the end of the messages list
- or updates the existing user message at the end.
- :param msg: The message to be added or appended.
- :param messages: The list of message dictionaries.
- :return: The updated list of message dictionaries.
- """
- if messages and messages[-1].get("role") == "user":
- messages[-1]["content"] = f"{messages[-1]['content']}\n{content}"
- else:
- # Insert at the end
- messages.append({"role": "user", "content": content})
- return messages
- def append_or_update_assistant_message(content: str, messages: list[dict]):
- """
- Adds a new assistant message at the end of the messages list
- or updates the existing assistant message at the end.
- :param msg: The message to be added or appended.
- :param messages: The list of message dictionaries.
- :return: The updated list of message dictionaries.
- """
- if messages and messages[-1].get("role") == "assistant":
- messages[-1]["content"] = f"{messages[-1]['content']}\n{content}"
- else:
- # Insert at the end
- messages.append({"role": "assistant", "content": content})
- return messages
- def openai_chat_message_template(model: str):
- return {
- "id": f"{model}-{str(uuid.uuid4())}",
- "created": int(time.time()),
- "model": model,
- "choices": [{"index": 0, "logprobs": None, "finish_reason": None}],
- }
- def openai_chat_chunk_message_template(
- model: str,
- content: Optional[str] = None,
- tool_calls: Optional[list[dict]] = None,
- usage: Optional[dict] = None,
- ) -> dict:
- template = openai_chat_message_template(model)
- template["object"] = "chat.completion.chunk"
- template["choices"][0]["index"] = 0
- template["choices"][0]["delta"] = {}
- if content:
- template["choices"][0]["delta"]["content"] = content
- if tool_calls:
- template["choices"][0]["delta"]["tool_calls"] = tool_calls
- if not content and not tool_calls:
- template["choices"][0]["finish_reason"] = "stop"
- if usage:
- template["usage"] = usage
- return template
- def openai_chat_completion_message_template(
- model: str,
- message: Optional[str] = None,
- tool_calls: Optional[list[dict]] = None,
- usage: Optional[dict] = None,
- ) -> dict:
- template = openai_chat_message_template(model)
- template["object"] = "chat.completion"
- if message is not None:
- template["choices"][0]["message"] = {
- "content": message,
- "role": "assistant",
- **({"tool_calls": tool_calls} if tool_calls else {}),
- }
- template["choices"][0]["finish_reason"] = "stop"
- if usage:
- template["usage"] = usage
- return template
- def get_gravatar_url(email):
- # Trim leading and trailing whitespace from
- # an email address and force all characters
- # to lower case
- address = str(email).strip().lower()
- # Create a SHA256 hash of the final string
- hash_object = hashlib.sha256(address.encode())
- hash_hex = hash_object.hexdigest()
- # Grab the actual image URL
- return f"https://www.gravatar.com/avatar/{hash_hex}?d=mp"
- def calculate_sha256(file_path, chunk_size):
- # Compute SHA-256 hash of a file efficiently in chunks
- sha256 = hashlib.sha256()
- with open(file_path, "rb") as f:
- while chunk := f.read(chunk_size):
- sha256.update(chunk)
- return sha256.hexdigest()
- def calculate_sha256_string(string):
- # Create a new SHA-256 hash object
- sha256_hash = hashlib.sha256()
- # Update the hash object with the bytes of the input string
- sha256_hash.update(string.encode("utf-8"))
- # Get the hexadecimal representation of the hash
- hashed_string = sha256_hash.hexdigest()
- return hashed_string
- def validate_email_format(email: str) -> bool:
- if email.endswith("@localhost"):
- return True
- return bool(re.match(r"[^@]+@[^@]+\.[^@]+", email))
- def sanitize_filename(file_name):
- # Convert to lowercase
- lower_case_file_name = file_name.lower()
- # Remove special characters using regular expression
- sanitized_file_name = re.sub(r"[^\w\s]", "", lower_case_file_name)
- # Replace spaces with dashes
- final_file_name = re.sub(r"\s+", "-", sanitized_file_name)
- return final_file_name
- def extract_folders_after_data_docs(path):
- # Convert the path to a Path object if it's not already
- path = Path(path)
- # Extract parts of the path
- parts = path.parts
- # Find the index of '/data/docs' in the path
- try:
- index_data_docs = parts.index("data") + 1
- index_docs = parts.index("docs", index_data_docs) + 1
- except ValueError:
- return []
- # Exclude the filename and accumulate folder names
- tags = []
- folders = parts[index_docs:-1]
- for idx, _ in enumerate(folders):
- tags.append("/".join(folders[: idx + 1]))
- return tags
- def parse_duration(duration: str) -> Optional[timedelta]:
- if duration == "-1" or duration == "0":
- return None
- # Regular expression to find number and unit pairs
- pattern = r"(-?\d+(\.\d+)?)(ms|s|m|h|d|w)"
- matches = re.findall(pattern, duration)
- if not matches:
- raise ValueError("Invalid duration string")
- total_duration = timedelta()
- for number, _, unit in matches:
- number = float(number)
- if unit == "ms":
- total_duration += timedelta(milliseconds=number)
- elif unit == "s":
- total_duration += timedelta(seconds=number)
- elif unit == "m":
- total_duration += timedelta(minutes=number)
- elif unit == "h":
- total_duration += timedelta(hours=number)
- elif unit == "d":
- total_duration += timedelta(days=number)
- elif unit == "w":
- total_duration += timedelta(weeks=number)
- return total_duration
- def parse_ollama_modelfile(model_text):
- parameters_meta = {
- "mirostat": int,
- "mirostat_eta": float,
- "mirostat_tau": float,
- "num_ctx": int,
- "repeat_last_n": int,
- "repeat_penalty": float,
- "temperature": float,
- "seed": int,
- "tfs_z": float,
- "num_predict": int,
- "top_k": int,
- "top_p": float,
- "num_keep": int,
- "typical_p": float,
- "presence_penalty": float,
- "frequency_penalty": float,
- "penalize_newline": bool,
- "numa": bool,
- "num_batch": int,
- "num_gpu": int,
- "main_gpu": int,
- "low_vram": bool,
- "f16_kv": bool,
- "vocab_only": bool,
- "use_mmap": bool,
- "use_mlock": bool,
- "num_thread": int,
- }
- data = {"base_model_id": None, "params": {}}
- # Parse base model
- base_model_match = re.search(
- r"^FROM\s+(\w+)", model_text, re.MULTILINE | re.IGNORECASE
- )
- if base_model_match:
- data["base_model_id"] = base_model_match.group(1)
- # Parse template
- template_match = re.search(
- r'TEMPLATE\s+"""(.+?)"""', model_text, re.DOTALL | re.IGNORECASE
- )
- if template_match:
- data["params"] = {"template": template_match.group(1).strip()}
- # Parse stops
- stops = re.findall(r'PARAMETER stop "(.*?)"', model_text, re.IGNORECASE)
- if stops:
- data["params"]["stop"] = stops
- # Parse other parameters from the provided list
- for param, param_type in parameters_meta.items():
- param_match = re.search(rf"PARAMETER {param} (.+)", model_text, re.IGNORECASE)
- if param_match:
- value = param_match.group(1)
- try:
- if param_type is int:
- value = int(value)
- elif param_type is float:
- value = float(value)
- elif param_type is bool:
- value = value.lower() == "true"
- except Exception as e:
- log.exception(f"Failed to parse parameter {param}: {e}")
- continue
- data["params"][param] = value
- # Parse adapter
- adapter_match = re.search(r"ADAPTER (.+)", model_text, re.IGNORECASE)
- if adapter_match:
- data["params"]["adapter"] = adapter_match.group(1)
- # Parse system description
- system_desc_match = re.search(
- r'SYSTEM\s+"""(.+?)"""', model_text, re.DOTALL | re.IGNORECASE
- )
- system_desc_match_single = re.search(
- r"SYSTEM\s+([^\n]+)", model_text, re.IGNORECASE
- )
- if system_desc_match:
- data["params"]["system"] = system_desc_match.group(1).strip()
- elif system_desc_match_single:
- data["params"]["system"] = system_desc_match_single.group(1).strip()
- # Parse messages
- messages = []
- message_matches = re.findall(r"MESSAGE (\w+) (.+)", model_text, re.IGNORECASE)
- for role, content in message_matches:
- messages.append({"role": role, "content": content})
- if messages:
- data["params"]["messages"] = messages
- return data
- def convert_logit_bias_input_to_json(user_input):
- logit_bias_pairs = user_input.split(",")
- logit_bias_json = {}
- for pair in logit_bias_pairs:
- token, bias = pair.split(":")
- token = str(token.strip())
- bias = int(bias.strip())
- bias = 100 if bias > 100 else -100 if bias < -100 else bias
- logit_bias_json[token] = bias
- return json.dumps(logit_bias_json)
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