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amdgpu_stats/gpustats.py

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#!/usr/bin/python3
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"""Pretty Textual-based stats for AMD GPUs
TODO: restore argparse / --card, in case detection fails.
will require separating the hwmon finding tasks from 'find_card'
rich markup reference:
https://rich.readthedocs.io/en/stable/markup.html
"""
import argparse
from os import path
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import glob
import sys
from typing import Tuple, Optional
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# from textual import events
from textual.app import App, ComposeResult
from textual.containers import Container, Horizontal
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from textual.reactive import reactive
from textual.screen import Screen
from textual.widgets import Header, Footer, Static, TextLog, Label
from humanfriendly import format_size
def find_card() -> Optional[Tuple[Optional[str], Optional[str]]]:
"""searches contents of /sys/class/drm/card*/device/hwmon/hwmon*/name
looking for 'amdgpu' to find a card to monitor
returns the cardN name and hwmon directory for stats"""
_card = None
_hwmon_dir = None
hwmon_names_glob = '/sys/class/drm/card*/device/hwmon/hwmon*/name'
hwmon_names = glob.glob(hwmon_names_glob)
for hwmon_name_file in hwmon_names:
with open(hwmon_name_file, "r", encoding="utf-8") as _f:
if _f.read().strip() == 'amdgpu':
# found an amdgpu
# note: if multiple are found, last will be used/watched
# will be configurable in the future, may prompt
_card = hwmon_name_file.split('/')[4]
_hwmon_dir = path.dirname(hwmon_name_file)
return _card, _hwmon_dir
def read_stat(file: str) -> str:
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"""given `file`, return the contents"""
with open(file, "r", encoding="utf-8") as _fh:
data = _fh.read().strip()
return data
def format_frequency(frequency_hz) -> str:
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"""takes a frequency and formats it with an appropriate Hz suffix"""
return (
format_size(int(frequency_hz), binary=False)
.replace("B", "Hz")
.replace("bytes", "Hz")
)
class LogScreen(Screen):
"""Creates a screen for the logging widget"""
BINDINGS = [("l", "app.pop_screen", "Show/hide logs")]
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
self.text_log = TextLog(highlight=True, markup=True)
def on_mount(self) -> None:
"""Event handler called when widget is first added
On first display in this case."""
def compose(self) -> ComposeResult:
yield Header()
yield Container(self.text_log)
yield Footer()
# def on_key(self, event: events.Key) -> None:
# """Log/show key presses when the log window is open"""
# self.text_log.write(event)
class GPUStatsWidget(Static):
"""The main stats widget."""
def compose(self) -> ComposeResult:
"""Create child widgets."""
yield ClockDisplay(classes="box")
yield PowerDisplay(classes="box")
yield MiscDisplay(classes="box")
class GPUStats(App):
"""Textual-based tool to show AMDGPU statistics."""
# determine the real path of the script, to load the stylesheet
SCRIPT_PATH = path.dirname(path.realpath(__file__))
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CSS_PATH = path.join(SCRIPT_PATH, "gpustats.css")
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# initialize log screen
SCREENS = {"logs": LogScreen()}
# setup keybinds
BINDINGS = [
("c", "toggle_dark", "Toggle colors"),
("l", "push_screen('logs')", "Show/hide logs"),
("q", "quit_app", "Quit"),
]
def compose(self) -> ComposeResult:
"""Create child widgets for the app."""
yield Header()
yield Footer()
yield Container(GPUStatsWidget())
self.update_log("[bold green]App started, logging begin!")
self.update_log("[bold italic]Information sources:[/]")
for metric, source in src_files.items():
self.update_log(f'[bold] {metric}:[/] {source}')
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for metric, source in temp_files.items():
self.update_log(f'[bold] {metric} temperature:[/] {source}')
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def action_toggle_dark(self) -> None:
"""An action to toggle dark mode."""
self.dark = not self.dark
self.update_log(f"Dark side: [bold]{self.dark}")
def action_quit_app(self) -> None:
"""An action to quit the program"""
message = "Exiting on user request"
self.update_log(f"[bold]{message}")
self.exit(message)
def update_log(self, message: str) -> None:
"""Update the TextLog widget with a new message."""
log_screen = self.SCREENS["logs"]
log_screen.text_log.write(message)
class MiscDisplay(Static):
"""A widget to display misc. GPU stats."""
# construct the misc. stats dict; appended by discovered temperature nodes
# used to make a 'reactive' object
fan_stats = reactive({"fan_rpm": 0,
"fan_rpm_target": 0})
temp_stats = reactive({})
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def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
self.timer_fan = None
self.timer_temp = None
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def compose(self) -> ComposeResult:
yield Horizontal(Label("[underline]Temperatures"),
Label("", classes="statvalue"))
for temp_node in temp_files:
# capitalize the first letter for display
caption = temp_node[0].upper() + temp_node[1:]
yield Horizontal(Label(f' {caption}:',),
Label("", id="temp_" + temp_node, classes="statvalue"))
yield Horizontal(Label("[underline]Fan RPM"),
Label("", classes="statvalue"))
yield Horizontal(Label(" Current:",),
Label("", id="fan_rpm", classes="statvalue"))
yield Horizontal(Label(" Target:",),
Label("", id="fan_rpm_target", classes="statvalue"))
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def on_mount(self) -> None:
"""Event handler called when widget is added to the app."""
self.timer_fan = self.set_interval(interval, self.update_fan_stats)
self.timer_temp = self.set_interval(interval, self.update_temp_stats)
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def update_fan_stats(self) -> None:
"""Method to update the 'fan' values to current measurements.
Run by a timer created 'on_mount'"""
val_update = {
"fan_rpm": read_stat(src_files['fan_rpm']),
"fan_rpm_target": read_stat(src_files['fan_rpm_target'])
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}
self.fan_stats = val_update
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def update_temp_stats(self) -> None:
"""Method to update the 'temperature' values to current measurements.
Run by a timer created 'on_mount'"""
val_update = {}
for temp_node, temp_file in temp_files.items():
# iterate through the discovered temperature nodes
# ... updating the dictionary with new stats
_content = f'{int(read_stat(temp_file)) / 1000:.0f}C'
val_update[temp_node] = _content
self.temp_stats = val_update
def watch_fan_stats(self, fan_stats: dict) -> None:
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"""Called when the 'fan_stats' reactive attr changes.
- Updates label values
- Casting inputs to string to avoid type problems w/ int/None"""
self.query_one("#fan_rpm", Static).update(f"{fan_stats['fan_rpm']}")
self.query_one("#fan_rpm_target", Static).update(f"{fan_stats['fan_rpm_target']}")
def watch_temp_stats(self, temp_stats: dict) -> None:
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"""Called when the temp_stats reactive attr changes, updates labels"""
for temp_node in temp_files:
# check first if the reactive object has been updated with keys
if temp_node in temp_stats:
stat_dict_item = temp_stats[temp_node]
self.query_one("#temp_" + temp_node, Static).update(stat_dict_item)
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class ClockDisplay(Static):
"""A widget to display GPU power stats."""
core_vals = reactive({"sclk": 0, "mclk": 0, "voltage": 0, "util_pct": 0})
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def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
self.timer_clocks = None
def compose(self) -> ComposeResult:
yield Horizontal(Label("[underline]Clocks"),
Label("", classes="statvalue"))
yield Horizontal(Label(" GPU core:",),
Label("", id="clk_core_val", classes="statvalue"))
yield Horizontal(Label(" Memory:"),
Label("", id="clk_memory_val", classes="statvalue"))
yield Horizontal(Label(""), Label("", classes="statvalue")) # padding to split groups
yield Horizontal(Label("[underline]Core"),
Label("", classes="statvalue"))
yield Horizontal(Label(" Utilization:",),
Label("", id="util_pct", classes="statvalue"))
yield Horizontal(Label(" Voltage:",),
Label("", id="clk_voltage_val", classes="statvalue"))
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def on_mount(self) -> None:
"""Event handler called when widget is added to the app."""
self.timer_clocks = self.set_interval(interval, self.update_core_vals)
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def update_core_vals(self) -> None:
"""Method to update GPU clock values to the current measurements.
Run by a timer created 'on_mount'"""
self.core_vals = {
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"sclk": format_frequency(read_stat(src_files['core_clock'])),
"mclk": format_frequency(read_stat(src_files['memory_clock'])),
"voltage": float(
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f"{int(read_stat(src_files['core_voltage'])) / 1000:.2f}"
),
"util_pct": read_stat(src_files['busy_pct']),
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}
def watch_core_vals(self, core_vals: dict) -> None:
"""Called when the clocks attribute changes
- Updates label values
- Casting inputs to string to avoid type problems w/ int/None"""
self.query_one("#clk_core_val", Static).update(f"{core_vals['sclk']}")
self.query_one("#util_pct", Static).update(f"{core_vals['util_pct']}%")
self.query_one("#clk_voltage_val", Static).update(f"{core_vals['voltage']}V")
self.query_one("#clk_memory_val", Static).update(f"{core_vals['mclk']}")
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class PowerDisplay(Static):
"""A widget to display GPU power stats."""
micro_watts = reactive({"limit": 0,
"average": 0,
"capability": 0,
"default": 0})
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
self.timer_micro_watts = None
def compose(self) -> ComposeResult:
yield Horizontal(Label("[underline]Power"),
Label("", classes="statvalue"))
yield Horizontal(Label(" Usage:",),
Label("", id="pwr_avg_val", classes="statvalue"))
yield Horizontal(Label(""), Label("", classes="statvalue")) # padding to split groups
yield Horizontal(Label("[underline]Limits"),
Label("", classes="statvalue"))
yield Horizontal(Label(" Configured:",),
Label("", id="pwr_lim_val", classes="statvalue"))
yield Horizontal(Label(" Default:",),
Label("", id="pwr_def_val", classes="statvalue"))
yield Horizontal(Label(" Board capability:",),
Label("", id="pwr_cap_val", classes="statvalue"))
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def on_mount(self) -> None:
"""Event handler called when widget is added to the app."""
self.timer_micro_watts = self.set_interval(interval, self.update_micro_watts)
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def update_micro_watts(self) -> None:
"""Method to update GPU power values to current measurements.
Run by a timer created 'on_mount'"""
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self.micro_watts = {
"limit": int(int(read_stat(src_files['pwr_limit'])) / 1000000),
"average": int(int(read_stat(src_files['pwr_average'])) / 1000000),
"capability": int(int(read_stat(src_files['pwr_cap'])) / 1000000),
"default": int(int(read_stat(src_files['pwr_default'])) / 1000000),
}
def watch_micro_watts(self, micro_watts: dict) -> None:
"""Called when the micro_watts attributes change.
- Updates label values
- Casting inputs to string to avoid type problems w/ int/None"""
self.query_one("#pwr_avg_val", Static).update(f"{micro_watts['average']}W")
self.query_one("#pwr_lim_val", Static).update(f"{micro_watts['limit']}W")
self.query_one("#pwr_def_val", Static).update(f"{micro_watts['default']}W")
self.query_one("#pwr_cap_val", Static).update(f"{micro_watts['capability']}W")
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if __name__ == "__main__":
CARD, hwmon_dir = find_card()
# do the argparse dance
p = argparse.ArgumentParser(
# show the value for defaults in '-h/--help'
formatter_class=argparse.ArgumentDefaultsHelpFormatter,
description="Show some basic AMD GPU stats -- tested on RX6xxx series",
)
# p.add_argument(
# "-c",
# "--card",
# type=str,
# default=AUTO_CARD,
# help="The GPU to inspect, see 'ls -lad /sys/class/drm/card*'",
# )
p.add_argument(
"-i",
"--interval",
type=float,
default=1.0,
help="The delay (in seconds) between polling for data",
)
p_args = p.parse_args()
interval = p_args.interval
# CARD = args.card
# exit if AMDGPU not found, otherwise - proceed, assigning stat files
if CARD is None:
sys.exit('Could not find an AMD GPU, exiting.')
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card_dir = path.join("/sys/class/drm/", CARD) # eg: /sys/class/drm/card0/
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# ref: https://docs.kernel.org/gpu/amdgpu/thermal.html
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src_files = {'pwr_limit': path.join(hwmon_dir, "power1_cap"),
'pwr_average': path.join(hwmon_dir, "power1_average"),
'pwr_cap': path.join(hwmon_dir, "power1_cap_max"),
'pwr_default': path.join(hwmon_dir, "power1_cap_default"),
'core_clock': path.join(hwmon_dir, "freq1_input"),
'core_voltage': path.join(hwmon_dir, "in0_input"),
'memory_clock': path.join(hwmon_dir, "freq2_input"),
'busy_pct': path.join(card_dir, "device/gpu_busy_percent"),
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'temp_c': path.join(hwmon_dir, "temp1_input"),
'fan_rpm': path.join(hwmon_dir, "fan1_input"),
'fan_rpm_target': path.join(hwmon_dir, "fan1_target"),
}
# determine temperature nodes, construct an empty dict to store them
temp_files = {}
temp_node_labels = glob.glob(path.join(hwmon_dir, "temp*_label"))
for temp_node_label_file in temp_node_labels:
# determine the base node id, eg: temp1
# construct the path to the file that will label it. ie: edge/junction
temp_node_id = path.basename(temp_node_label_file).split('_')[0]
temp_node_value_file = path.join(hwmon_dir, f"{temp_node_id}_input")
with open(temp_node_label_file, 'r', encoding='utf-8') as _node:
temp_node_name = _node.read().strip()
print(f'found temp: {temp_node_name} (id: {temp_node_id})')
# add the node name/type and the corresponding temp file to the dict
temp_files[temp_node_name] = temp_node_value_file
# start the party, draw the app and start collecting metrics
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app = GPUStats()
app.run()