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base: Iridium:f691be219d8713063b551daae28c72df61521647
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Iridium:main Iridium:testing Iridium:boots-bios-uefi
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compare: Iridium:testing
Branches Tags
Iridium:testing Iridium:boots-bios-uefi Iridium:main

78 Commits
f691be219d ... testing

Author SHA1 Message Date
N0VA
a5d946b2a2 Remove unsupported --force from bootctl and perform manual cleanup of ESP 2026-02-10 15:48:06 +01:00
N0VA
ff0760b772 Add GUI progress bar and improve systemd-boot installation reliability 2026-02-10 15:23:19 +01:00
N0VA
752b6ddb60 Fix UEFI boot by ensuring unique machine-id and correctly adding kernel entries 2026-02-10 15:01:59 +01:00
N0VA
3da9d659a0 Fix rsync failure on UEFI: exclude /boot directory itself from main sync 2026-02-10 14:37:35 +01:00
N0VA
0e6d3cd83c Fix rsync /boot failure on UEFI by using FAT-safe sync flags 2026-02-10 14:23:32 +01:00
N0VA
17548898bd Switch to rsync-based offline installation from live system 2026-02-10 14:09:16 +01:00
N0VA
c92e0bb1f9 revert 8f7eb17d3c 
revert Enhance offline installation logic: better repo detection and --offline flag
 2026-02-10 13:58:45 +01:00
N0VA
8f7eb17d3c Enhance offline installation logic: better repo detection and --offline flag 2026-02-10 13:56:33 +01:00
N0VA
ada17eefd7 Switch to systemd-boot for UEFI while keeping GRUB2 for BIOS/MBR 2026-02-10 13:29:02 +01:00
N0VA
2e8e99f481 Add --force to UEFI grub2-install to bypass Fedora Secure Boot warning 2026-02-10 13:26:49 +01:00
N0VA
53227e0f8e Fix UEFI grub2-install: add missing modules package and fix DNF stderr logging 2026-02-09 19:05:27 +01:00
N0VA
2762f2f767 Robust log capture on SIGINT/SIGTERM and cleaner Discord reporting 2026-02-09 18:39:17 +01:00
N0VA
19254e128c Enhance Discord error reporting: code blocks and crash robustness 2026-02-09 18:00:20 +01:00
N0VA
5abba6ce88 Improve Discord logging for errors and further fix UEFI mount robustness 2026-02-09 17:41:12 +01:00
N0VA
0ec7de3937 Fix UEFI GRUB installation: ensure ESP is mounted to /boot/efi and improve error logging 2026-02-09 16:53:30 +01:00
N0VA
cbc1b05eca Simplify run_vm_bios.sh to unconditionally load clean-state snapshot 2026-02-09 15:24:46 +01:00
N0VA
e8afc31d00 Enable snapshot support in run_vm_bios.sh with automatic detection 2026-02-09 15:14:09 +01:00
N0VA
59219130bd Fix run_vm_bios.sh: add missing backslashes and improve CDROM boot compatibility 2026-02-09 15:08:23 +01:00
N0VA
e8a2f7aaa9 Redo backend installer logic to support BIOS/MBR boot on older devices and switch to GRUB2 2026-02-09 15:02:14 +01:00
N0VA
b37fc8d060 Update run_vm_uefi.sh 2026-02-09 14:22:45 +01:00
N0VA
44af152887 Revert "Improve offline repository discovery and dnf configuration for ISO installs" 
This reverts commit 297f2cd3c2.
 2026-02-05 19:43:12 +01:00
N0VA
5238fd29d9 Revert "Fix dnf failure by adding /run mount, removing --cacheonly, and ensuring host-config usage" 
This reverts commit 951a1b7fdc.
 2026-02-05 19:43:12 +01:00
N0VA
74fedf9001 Revert "Further improvements to dnf robustness and repo discovery for offline installs" 
This reverts commit 5df00a5814.
 2026-02-05 19:43:12 +01:00
N0VA
5df00a5814 Further improvements to dnf robustness and repo discovery for offline installs 2026-02-05 19:39:54 +01:00
N0VA
951a1b7fdc Fix dnf failure by adding /run mount, removing --cacheonly, and ensuring host-config usage 2026-02-05 19:32:56 +01:00
N0VA
297f2cd3c2 Improve offline repository discovery and dnf configuration for ISO installs 2026-02-05 19:28:41 +01:00
N0VA
ce2c242454 revert 4278a3198d 
revert Add minimal-linux-installer skill with proven installation patterns
 2026-02-05 18:32:01 +01:00
N0VA
4278a3198d Add minimal-linux-installer skill with proven installation patterns 2026-02-05 18:30:55 +01:00
N0VA
943cfee8bb IT ACTUALLY INSTALLS 2026-02-05 18:16:08 +01:00
N0VA
9cfd6ad2e0 Use robust usermod -p method for setting passwords 2026-02-05 17:54:14 +01:00
N0VA
23b5f017d4 Fix password setting using chpasswd -R and improve screen wake lock 2026-02-05 17:39:01 +01:00
N0VA
ee83411333 Fix password setting by using passwd --stdin and sync 2026-02-05 17:25:00 +01:00
N0VA
7613bdf8d5 Fix password setting and inhibit system sleep during install 2026-02-05 17:03:36 +01:00
N0VA
400235067d Fix bootctl unrecognized option and improve repo discovery 2026-02-05 16:46:59 +01:00
N0VA
f3e7122d02 Fix dnf5 deferred transaction and add shadow-utils for user creation 2026-02-05 16:27:57 +01:00
N0VA
afe18c1eee Fix dnf error by removing localpkg_only and improve repo search 2026-02-05 15:40:42 +01:00
N0VA
76c638de8e Improve offline installation by searching for repo in multiple paths 2026-02-05 15:37:18 +01:00
N0VA
1238dcdabd Remove accidental log file 2026-02-05 15:17:53 +01:00
N0VA
f7fc354f3f Fix UEFI boot by mounting efivarfs and forcing systemd-boot install 2026-02-05 15:17:48 +01:00
N0VA
3a226108ec Fix: ensure disk is unmounted before partitioning and use sudo for reboot 2026-02-05 14:55:18 +01:00
N0VA
45b0fa5a84 . 2026-02-05 14:54:15 +01:00
N0VA
6b7c7debff Increase VM memory allocation to 8GB 2026-02-05 14:49:59 +01:00
N0VA
9fcbf6f204 Add automatic dependency installation to run.sh 2026-02-05 14:34:35 +01:00
N0VA
e5f46324e4 Fix UEFI snapshot support and ensure sudo privileges 2026-02-05 14:23:44 +01:00
N0VA
4eff9d7e22 Update UEFI VM script with correct paths and add snapshot script 2026-02-05 14:18:39 +01:00
N0VA
7bfab2ac5b Update window.py 2026-02-05 14:00:49 +01:00
N0VA
8bac02357c Send logs as file, create sudoer user, and improve bootloader reliability 2026-02-05 13:22:34 +01:00
N0VA
bba28a6f77 Remove accidental log file 2026-02-05 12:59:54 +01:00
N0VA
be674e89e0 Switch to systemd-boot, full log sending, and offline install fix 2026-02-05 12:59:24 +01:00
N0VA
e99290eebe . 2026-02-05 12:48:36 +01:00
N0VA
eb03edb050 . 2026-02-05 12:39:41 +01:00
N0\A
f7bebc7f88 Add network logging to Discord webhook for testing branch 
- Add network_logging.py module with Discord webhook integration
- Log session start with unique session ID and mode (MOCK/PRODUCTION)
- Log all page navigations when clicking Next
- Log all user selections (disk, install mode, modules, user info)
- Log installation progress through each step
- Send install completion/failure logs
- Auto-flush logs every 2 seconds and immediately on critical events

TESTING BRANCH ONLY - Remove before merging to main
 2026-02-04 21:18:18 +01:00
N0VA
e611f174be Update os_install.py 2026-02-03 21:32:51 +01:00
N0VA
b70ff549a7 Update partitioning.py 2026-02-03 21:31:17 +01:00
N0VA
bb31814233 Update partitioning.py 2026-02-03 21:30:27 +01:00
N0VA
00ba6e5c89 feat: verbose installation logs, improved auto-partitioning logic, and UI tweaks 2026-02-03 21:24:31 +01:00
N0VA
7d43b82ce1 fix(ui): reorder partition dialog, fix mount point selection, add threaded install with logs 2026-02-03 21:06:16 +01:00
N0VA
af86d357a4 fix(ui): correct mount point selection pre-fill and simplify partition creation dialog 2026-02-03 20:57:29 +01:00
N0VA
848b2e7e74 fix: mount pseudo-fs during install, simplify partitioning, and add mount point config 2026-02-03 20:49:41 +01:00
N0VA
dc417d15d3 fix(backend): use host config for dnf install to resolve repos 2026-02-03 20:29:03 +01:00
N0VA
7a8e8ccbed fix(partitioning): avoid alignment errors by using fill-gap logic for full space 2026-02-03 20:19:25 +01:00
N0VA
7371da2451 fix(backend): improve partition creation robustness and formatting 2026-02-03 20:03:24 +01:00
N0VA
9f5bade34c feat(partitioning): support fat32 and add validation for system partition name 2026-02-03 19:53:51 +01:00
N0VA
11fca148be fix(ui): handle NoneType fstype and remove duplicate code in partitioning page 2026-02-03 19:49:52 +01:00
N0VA
b7a049d86f fix(ui): correct Gtk.Button instantiation in partitioning page 2026-02-03 18:13:04 +01:00
N0VA
2676da751b Fix PartitioningPage being stuck on detecting due to duplicate function 2026-02-03 17:23:19 +01:00
N0VA
22e1fa8f62 Implement manual partition management (create/delete/mountpoints) 2026-02-03 17:07:45 +01:00
N0VA
efe25f3e11 Ensure disk device path has /dev/ prefix 2026-02-03 17:01:36 +01:00
N0VA
2f9338af0a Fix logic error in page transitions 2026-02-03 16:43:19 +01:00
N0VA
33d989cfad Hook up GUI Install button to backend logic 2026-02-03 16:34:36 +01:00
N0VA
2377b0269a Implement minimal OS and Bootloader installation logic 2026-02-03 16:28:55 +01:00
N0VA
3c4870b104 Implement basic partitioning backend and CLI interface 2026-02-03 16:20:59 +01:00
N0VA
aae235e81f Format icons SVG files for better readability 2026-02-03 12:03:25 +01:00
N0\A
759b4c4007 Use the icon 2026-02-03 01:26:30 +01:00
N0\A
9958b9a65b Create org.iridium.Installer-symbolic.svg 2026-02-03 01:26:25 +01:00
N0\A
1afdf99a6f Temporary (or probably permanent, you know how this works) icon 2026-02-03 01:17:48 +01:00
N0\A
26757288c4 Add mock mode support and input validation 2026-02-02 20:19:36 +01:00
N0\A
7a69d62782 Module titles 2026-02-02 20:15:40 +01:00
19 changed files with 1792 additions and 116 deletions
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6
README.md
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# Iridium OS Installer
<div align="center">
<img src="data/icons/org.iridium.Installer.svg" alt="Iridium OS Installer Icon" width="128" height="128">
# Iridium OS Installer
</div>
> [!WARNING]
> For now this is only a mockup and not actually functional.

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<?xml version="1.0" encoding="UTF-8" ?>
<svg
height="16px"
viewBox="0 0 16 16"
width="16px"
xmlns="http://www.w3.org/2000/svg"
>
<path
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fill="#2e3436"
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fill="#2e3436"
/>
</svg>
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<svg
width="128"
height="128"
viewBox="0 0 128 128"
xmlns="http://www.w3.org/2000/svg"
>
<defs>
<linearGradient id="circle-bg" x1="0%" y1="0%" x2="0%" y2="100%">
<stop offset="0%" stop-color="#5E5C64" />
<stop offset="100%" stop-color="#3D3846" />
</linearGradient>
</defs>
<circle cx="64" cy="64" r="56" fill="url(#circle-bg)" />
<circle
cx="64"
cy="64"
r="40"
fill="none"
stroke="#F6D32D"
stroke-width="8"
stroke-dasharray="75 25"
stroke-linecap="round"
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cx="64"
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stroke-dasharray="45 20"
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[Desktop Entry]
Name=Iridium Installer
Comment=Install Iridium OS on your computer
Exec=iridium-installer
Icon=org.iridium.Installer
Type=Application
Categories=System;Settings;
StartupNotify=true
Terminal=false

0
iridium_installer/backend/__init__.py Normal file
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327
iridium_installer/backend/disk.py Normal file
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import subprocess
import logging
import os
logger = logging.getLogger(__name__)
# Import network logging for critical disk operations
from .network_logging import log_to_discord
def log_disk_operation(operation, status="start", details=""):
log_to_discord("INFO", f"DISK_{operation}_{status}: {details}", module="disk")
class CommandResult:
def __init__(self, stdout, stderr, returncode):
self.stdout = stdout
self.stderr = stderr
self.returncode = returncode
def run_command(cmd, check=True):
logger.info(f"Running command: {' '.join(cmd)}")
process = subprocess.Popen(
cmd, stdout=subprocess.PIPE, stderr=subprocess.PIPE, text=True, bufsize=1
)
stdout_lines = []
stderr_lines = []
def read_stream(stream, line_list, log_level):
for line in stream:
line_clean = line.strip()
if line_clean:
log_level(line_clean)
line_list.append(line)
import threading
t1 = threading.Thread(
target=read_stream, args=(process.stdout, stdout_lines, logger.info)
)
t2 = threading.Thread(
target=read_stream, args=(process.stderr, stderr_lines, logger.error)
)
t1.start()
t2.start()
t1.join()
t2.join()
returncode = process.wait()
stdout_str = "".join(stdout_lines)
stderr_str = "".join(stderr_lines)
if check and returncode != 0:
raise subprocess.CalledProcessError(
returncode, cmd, output=stdout_str, stderr=stderr_str
)
return CommandResult(stdout_str, stderr_str, returncode)
def get_partition_device(disk_device, partition_number):
"""
Returns the partition device path.
Handles NVMe style (p1) vs sd style (1).
"""
if disk_device[-1].isdigit():
return f"{disk_device}p{partition_number}"
return f"{disk_device}{partition_number}"
def get_total_memory():
"""Returns total system memory in bytes."""
try:
return os.sysconf("SC_PAGE_SIZE") * os.sysconf("SC_PHYS_PAGES")
except (ValueError, OSError):
with open("/proc/meminfo", "r") as f:
for line in f:
if line.startswith("MemTotal:"):
parts = line.split()
return int(parts[1]) * 1024
return 0
def get_disk_size(disk_device):
"""Returns disk size in bytes using blockdev."""
try:
res = run_command(["blockdev", "--getsize64", disk_device])
return int(res.stdout.strip())
except Exception as e:
logger.error(f"Failed to get disk size: {e}")
return 0
def ensure_unmounted(disk_device):
"""
Finds all mounted partitions belonging to disk_device and unmounts them.
"""
logger.info(f"Ensuring all partitions on {disk_device} are unmounted...")
try:
# Get all partitions for this disk from lsblk
res = run_command(["lsblk", "-nlo", "NAME,MOUNTPOINT", disk_device])
for line in res.stdout.splitlines():
parts = line.split()
if len(parts) >= 2:
# NAME is usually the leaf name (e.g. vda1), we need full path
# But lsblk -lp gives full paths
pass
# Simpler approach: findmnt or just look at /proc/mounts
# Let's use lsblk -lp to get full paths
res = run_command(["lsblk", "-lpno", "NAME,MOUNTPOINT", disk_device])
for line in res.stdout.splitlines():
# line looks like "/dev/vda1 /mnt/boot" or "/dev/vda1"
parts = line.split()
if len(parts) >= 2:
dev_path = parts[0]
mount_point = parts[1]
if mount_point and mount_point != "None":
logger.info(f"Unmounting {dev_path} from {mount_point}...")
run_command(["umount", "-l", dev_path])
except Exception as e:
logger.warning(f"Error during pre-partition unmount: {e}")
def is_uefi():
"""Checks if the system is booted in UEFI mode."""
return os.path.exists("/sys/firmware/efi")
def auto_partition_disk(disk_device):
"""
Automatically partitions the disk based on boot mode:
UEFI (GPT): ESP (1GB), Root (Remaining), Swap (RAM+2GB)
BIOS (MBR): Root (Remaining, Bootable), Swap (RAM+2GB)
"""
uefi = is_uefi()
logger.info(f"Starting auto-partitioning on {disk_device} (UEFI: {uefi})")
log_disk_operation("PARTITION", "start", f"Disk: {disk_device}, UEFI: {uefi}")
ensure_unmounted(disk_device)
disk_size = get_disk_size(disk_device)
ram_size = get_total_memory()
# Calculate sizes
swap_mb = int((ram_size / (1024 * 1024)) + 2048)
# Cap swap at 16GB for sanity on large RAM systems unless disk is huge
if disk_size < 100 * 1024**3: # < 100GB
swap_mb = min(swap_mb, 4096)
disk_mb = disk_size / (1024 * 1024)
use_swap = disk_mb > (10240 + swap_mb) # Only use swap if we have at least 10GB for root
if uefi:
# GPT Layout
logger.info("Using GPT layout for UEFI")
run_command(["sgdisk", "-Z", disk_device])
run_command(["sgdisk", "-o", disk_device])
# 1. ESP (1GB)
run_command(["sgdisk", "-n", "1:0:+1024M", "-t", "1:ef00", "-c", "1:EFI System", disk_device])
# 2. Swap (if enabled)
if use_swap:
run_command(["sgdisk", "-n", f"3:-{swap_mb}M:0", "-t", "3:8200", "-c", "3:Swap", disk_device])
# 3. Root
run_command(["sgdisk", "-n", "2:0:0", "-t", "2:8300", "-c", "2:Root", disk_device])
else:
# MBR Layout for BIOS
logger.info("Using MBR layout for BIOS")
# Wipe disk using dd to be sure MBR is cleared
run_command(["dd", "if=/dev/zero", f"of={disk_device}", "bs=512", "count=100"])
# Use parted for MBR
run_command(["parted", "-s", disk_device, "mklabel", "msdos"])
if use_swap:
# Root first, then swap at end
root_end = int(disk_mb - swap_mb)
run_command(["parted", "-s", disk_device, "mkpart", "primary", "ext4", "1MiB", f"{root_end}MiB"])
run_command(["parted", "-s", disk_device, "mkpart", "primary", "linux-swap", f"{root_end}MiB", "100%"])
run_command(["parted", "-s", disk_device, "set", "1", "boot", "on"])
else:
run_command(["parted", "-s", disk_device, "mkpart", "primary", "ext4", "1MiB", "100%"])
run_command(["parted", "-s", disk_device, "set", "1", "boot", "on"])
run_command(["partprobe", disk_device])
import time
time.sleep(2)
# Identify partitions
if uefi:
efi_part = get_partition_device(disk_device, 1)
root_part = get_partition_device(disk_device, 2)
swap_part = get_partition_device(disk_device, 3) if use_swap else None
else:
efi_part = None # BIOS doesn't use ESP
root_part = get_partition_device(disk_device, 1)
swap_part = get_partition_device(disk_device, 2) if use_swap else None
# Format
if uefi:
logger.info(f"Formatting EFI partition {efi_part}...")
run_command(["mkfs.vfat", "-F32", efi_part])
if use_swap:
logger.info(f"Formatting Swap partition {swap_part}...")
run_command(["mkswap", swap_part])
logger.info(f"Formatting Root partition {root_part}...")
run_command(["mkfs.ext4", "-F", root_part])
result = {"efi": efi_part, "root": root_part, "swap": swap_part}
log_disk_operation("PARTITION", "complete", str(result))
return result
def mount_partitions(partition_info, mount_root="/mnt"):
"""
Mounts the partitions into mount_root.
"""
import os
log_disk_operation("MOUNT", "start", f"Mounting to {mount_root}")
# 1. Mount Root
if not os.path.exists(mount_root):
os.makedirs(mount_root)
run_command(["mount", partition_info["root"], mount_root])
# 2. Mount EFI (if exists)
if partition_info.get("efi"):
# For systemd-boot, we prefer mounting ESP to /boot
efi_mount = os.path.join(mount_root, "boot")
os.makedirs(efi_mount, exist_ok=True)
run_command(["mount", partition_info["efi"], efi_mount])
else:
# For BIOS, /boot is just a directory on root or we could make a separate /boot
# Current logic keeps it on root.
pass
# 3. Enable Swap
if partition_info.get("swap"):
run_command(["swapon", partition_info["swap"]])
logger.info(f"Partitions mounted at {mount_root}")
log_disk_operation("MOUNT", "complete", f"Root: {partition_info['root']}")
def create_partition(
disk_device, size_mb, type_code="8300", name="Linux filesystem", fstype=None
):
"""
Creates a new partition on the disk and formats it.
type_code: ef00 (EFI), 8200 (Swap), 8300 (Linux)
fstype: ext4, fat32, swap
"""
# Find next available partition number
res = run_command(["sgdisk", "-p", disk_device])
# Very basic parsing to find the next number
existing_nums = []
for line in res.stdout.splitlines():
parts = line.split()
if parts and parts[0].isdigit():
existing_nums.append(int(parts[0]))
next_num = 1
while next_num in existing_nums:
next_num += 1
# Use -g (mbrtogpt) to ensure we can work on the disk if it was MBR
# size_mb=0 means use all available space in the gap
size_spec = f"+{size_mb}M" if size_mb > 0 else "0"
run_command(
[
"sgdisk",
"-g",
"-n",
f"{next_num}:0:{size_spec}",
"-t",
f"{next_num}:{type_code}",
"-c",
f"{next_num}:{name}",
disk_device,
]
)
run_command(["partprobe", disk_device])
# Wait for partition node to appear
try:
run_command(["udevadm", "settle", "--timeout=5"])
except Exception:
import time
time.sleep(2)
part_dev = get_partition_device(disk_device, next_num)
if fstype == "fat32":
run_command(["mkfs.vfat", "-F32", part_dev])
elif fstype == "ext4":
run_command(["mkfs.ext4", "-F", part_dev])
elif fstype == "swap":
run_command(["mkswap", part_dev])
return next_num
def delete_partition(disk_device, part_num):
"""Deletes a partition by number."""
run_command(["sgdisk", "-d", str(part_num), disk_device])
run_command(["partprobe", disk_device])
def wipe_disk(disk_device):
"""Zaps the disk and creates a new GPT table."""
run_command(["sgdisk", "-Z", disk_device])
run_command(["sgdisk", "-o", disk_device])
run_command(["partprobe", disk_device])

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iridium_installer/backend/network_logging.py Normal file
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import logging
import requests
import threading
import time
import os
import atexit
import sys
import signal
from datetime import datetime
logger = logging.getLogger(__name__ + ".network_logging")
DISCORD_WEBHOOK_URL = "https://discord.com/api/webhooks/1468696228647932280/L9XSHS6TPEeK0wwJTFdK9RUyZvztSGQBd4xEfVvb4Y1AXGQAOc4YTsuxeFuWC9HxymJn"
FULL_LOG = []
QUEUE_LOCK = threading.Lock()
ENABLED = True
LOG_SENT = False
def init_network_logging(enabled: bool = True):
global ENABLED
ENABLED = enabled
if ENABLED:
atexit.register(send_full_log)
# Handle signals to ensure atexit runs
def signal_handler(sig, frame):
sys.exit(0)
signal.signal(signal.SIGINT, signal_handler)
signal.signal(signal.SIGTERM, signal_handler)
def log_to_discord(level: str, message: str, module: str = "general"):
if not ENABLED:
return
timestamp = datetime.utcnow().isoformat()
log_entry = {
"timestamp": timestamp,
"level": level.upper(),
"module": module,
"message": message,
}
with QUEUE_LOCK:
FULL_LOG.append(log_entry)
# Send immediate notification for critical errors
if level.upper() in ["ERROR", "CRITICAL"]:
formatted_msg = f"🚨 **CRITICAL ERROR** in `{module}`\n```\n{message[:1800]}\n```"
threading.Thread(
target=send_discord_message,
args=(formatted_msg,),
daemon=False
).start()
def flush_logs():
pass
def send_full_log():
"""Sends the entire session log as a text file attachment at the end."""
global LOG_SENT
if not ENABLED or LOG_SENT:
return
LOG_SENT = True
# Final sync wait
time.sleep(1)
with QUEUE_LOCK:
logs_to_send = FULL_LOG.copy()
if not logs_to_send:
return
temp_file = f"/tmp/iridium_install_log_{int(time.time())}.txt"
try:
error_count = 0
with open(temp_file, "w") as f:
for log in logs_to_send:
if log["level"] in ["ERROR", "CRITICAL"]:
error_count += 1
ts = log["timestamp"][:19].replace("T", " ")
line = f"[{ts}] [{log['level']}] [{log['module']}] {log['message']}\n"
f.write(line)
with open(temp_file, "rb") as f:
files = {"file": ("iridium_install_log.txt", f)}
payload = {
"content": f"📝 **Session Log Attached**\nTotal entries: {len(logs_to_send)}\nErrors: {error_count}"
}
requests.post(DISCORD_WEBHOOK_URL, data=payload, files=files, timeout=30)
except Exception as e:
print(f"Failed to send full log file to Discord: {e}")
finally:
if os.path.exists(temp_file):
try:
os.remove(temp_file)
except: pass
def send_discord_message(content: str):
try:
payload = {"content": content}
requests.post(DISCORD_WEBHOOK_URL, json=payload, timeout=5)
except Exception as e:
print(f"Discord webhook error: {e}")
class DiscordLogHandler(logging.Handler):
def __init__(self, module_name: str = "general"):
super().__init__()
self.module_name = module_name
def emit(self, record: logging.LogRecord):
if record.levelno < logging.INFO:
return
level_map = {
logging.INFO: "INFO",
logging.WARNING: "WARN",
logging.ERROR: "ERROR",
logging.CRITICAL: "CRITICAL",
}
level = level_map.get(record.levelno, "INFO")
message = self.format(record)
module_name = (
self.module_name
if self.module_name
else getattr(record, "module", "general")
)
log_to_discord(level, message, module_name)
def add_discord_handler(logger_obj: logging.Logger, module: str = None):
module_name = (
module if module else (logger_obj.name if logger_obj.name else "general")
)
handler = DiscordLogHandler(module_name=module_name)
logger_obj.addHandler(handler)

339
iridium_installer/backend/os_install.py Normal file
View File

@@ -0,0 +1,339 @@
import logging
import os
import subprocess
import sys
from contextlib import contextmanager
logger = logging.getLogger(__name__)
# Import network logging for critical operations
from .network_logging import log_to_discord
def log_os_install(operation, status="start", details=""):
log_to_discord(
"INFO", f"OSINSTALL_{operation}_{status}: {details}", module="os_install"
)
class CommandResult:
def __init__(self, stdout, stderr, returncode):
self.stdout = stdout
self.stderr = stderr
self.returncode = returncode
def run_command(cmd, check=True):
logger.info(f"Running command: {' '.join(cmd)}")
process = subprocess.Popen(
cmd,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
text=True,
bufsize=1, # Line buffered
)
stdout_lines = []
stderr_lines = []
# Helper to read stream
def read_stream(stream, line_list, log_level):
for line in stream:
line_clean = line.strip()
if line_clean:
# Progress parsing for rsync --info=progress2
if "%" in line_clean and any(x in line_clean for x in ["/", "speed", "to-check"]):
# This is likely a progress line, log it at INFO so it's visible but not spammy
# We only log every ~5th progress line to reduce noise if it's too fast
pass
log_level(line_clean)
line_list.append(line)
import threading
t1 = threading.Thread(
target=read_stream, args=(process.stdout, stdout_lines, logger.info)
)
t2 = threading.Thread(
target=read_stream, args=(process.stderr, stderr_lines, logger.info)
)
t1.start()
t2.start()
t1.join()
t2.join()
returncode = process.wait()
stdout_str = "".join(stdout_lines)
stderr_str = "".join(stderr_lines)
if check and returncode != 0:
error_msg = f"Command failed: {' '.join(cmd)}\nExit Code: {returncode}\nStderr: {stderr_str}"
logger.error(error_msg)
raise subprocess.CalledProcessError(
returncode, cmd, output=stdout_str, stderr=stderr_str
)
return CommandResult(stdout_str, stderr_str, returncode)
@contextmanager
def mount_pseudo_fs(mount_root):
"""
Context manager to bind mount /dev, /proc, /sys, and efivarfs into mount_root.
"""
logger.info(f"Mounting pseudo-filesystems to {mount_root}...")
mounts = ["dev", "proc", "sys"]
mounted_paths = []
try:
for fs in mounts:
target = os.path.join(mount_root, fs)
os.makedirs(target, exist_ok=True)
run_command(["mount", "--bind", f"/{fs}", target])
mounted_paths.append(target)
# Mount efivarfs if it exists on the host
efivars_path = "/sys/firmware/efi/efivars"
if os.path.exists(efivars_path):
target = os.path.join(mount_root, "sys/firmware/efi/efivars")
os.makedirs(target, exist_ok=True)
try:
# Try bind mount first
run_command(["mount", "--bind", efivars_path, target])
mounted_paths.append(target)
except Exception:
try:
# Fallback to direct mount
run_command(["mount", "-t", "efivarfs", "efivarfs", target])
mounted_paths.append(target)
except Exception as e:
logger.warning(f"Failed to mount efivarfs: {e}")
yield
finally:
logger.info(f"Unmounting pseudo-filesystems from {mount_root}...")
for path in reversed(mounted_paths):
try:
run_command(["umount", "-l", path])
except Exception as e:
logger.warning(f"Failed to unmount {path}: {e}")
def is_uefi():
return os.path.exists("/sys/firmware/efi")
def install_minimal_os(mount_root, releasever="43"):
"""
Installs the OS by rsyncing from the live environment (fully offline).
"""
logger.info(f"Installing Iridium OS to {mount_root} via rsync...")
log_os_install("INSTALL", "start", f"Target: {mount_root}")
uefi = is_uefi()
# Exclude list for rsync to avoid copying pseudo-filesystems and temporary data
excludes = [
"/dev/*",
"/proc/*",
"/sys/*",
"/tmp/*",
"/run/*",
"/mnt/*",
"/media/*",
"/lost+found",
"/home/*/.gvfs",
"/home/*/.cache",
"/home/*/.local/share/Trash",
"/var/lib/dnf/*",
"/var/cache/dnf/*",
"/etc/fstab",
"/etc/hostname",
"/boot", # We handle boot separately (including the dir itself)
# Avoid copying the installer data itself if it's in home
"domek_na_skale",
]
exclude_args = [f"--exclude={ex}" for ex in excludes]
# 1. Main Root Sync
# We use -a (archive), -H (hard links), -A (acls), -X (xattrs), -v (verbose), -x (one file system)
# --info=progress2 gives a nice summary for logging
cmd = ["rsync", "-aHAXvx", "--info=progress2"] + exclude_args + ["/", mount_root]
logger.info("Starting main rsync operation...")
run_command(cmd)
# 2. Boot Sync
# If UEFI, /boot is likely FAT32 which doesn't support symlinks or xattrs
logger.info(f"Syncing /boot (UEFI: {uefi})...")
boot_dst = os.path.join(mount_root, "boot/")
os.makedirs(boot_dst, exist_ok=True)
if uefi:
# FAT32 friendly: follow links (-L), recursive (-r), preserve times (-t)
# We skip ACLs, xattrs, and hardlinks as they are not supported
boot_cmd = ["rsync", "-rtvL", "--info=progress2", "/boot/", boot_dst]
else:
# BIOS (ext4): standard archive is fine
boot_cmd = ["rsync", "-aHAXvx", "--info=progress2", "/boot/", boot_dst]
run_command(boot_cmd)
# Ensure essential directories exist
for d in ["dev", "proc", "sys", "run", "mnt", "tmp"]:
os.makedirs(os.path.join(mount_root, d), exist_ok=True)
logger.info("Base system rsync complete.")
log_os_install("INSTALL", "complete", f"Installed to {mount_root}")
def configure_system(mount_root, partition_info, user_info=None, disk_device=None):
"""
Basic configuration: fstab, bootloader, and user creation.
"""
logger.info("Configuring system...")
log_os_install("CONFIGURE", "start", f"Configuring system in {mount_root}")
uefi = is_uefi()
# 1. Generate fstab
def get_uuid(dev):
res = run_command(["blkid", "-s", "UUID", "-o", "value", dev])
return res.stdout.strip()
root_uuid = get_uuid(partition_info["root"])
fstab_lines = [f"UUID={root_uuid} / ext4 defaults 1 1"]
if uefi and partition_info.get("efi"):
efi_uuid = get_uuid(partition_info["efi"])
# For systemd-boot, we mount ESP to /boot
fstab_lines.append(f"UUID={efi_uuid} /boot vfat defaults 0 2")
if partition_info.get("swap"):
swap_uuid = get_uuid(partition_info["swap"])
fstab_lines.append(f"UUID={swap_uuid} none swap defaults 0 0")
os.makedirs(os.path.join(mount_root, "etc"), exist_ok=True)
with open(os.path.join(mount_root, "etc/fstab"), "w") as f:
f.write("\n".join(fstab_lines) + "\n")
# Ensure EFI is mounted for bootloader installation if UEFI
if uefi and partition_info.get("efi"):
efi_target = os.path.join(mount_root, "boot")
os.makedirs(efi_target, exist_ok=True)
# Check if already mounted
res = subprocess.run(["mount"], capture_output=True, text=True)
if efi_target not in res.stdout:
run_command(["mount", partition_info["efi"], efi_target])
with mount_pseudo_fs(mount_root):
# 2. Configure User
if user_info:
logger.info(f"Creating user {user_info['username']}...")
# Since we rsync from live, we might have a 'liveuser' or similar.
# We should probably clear /home and /etc/passwd entries that are non-system
# but for now, let's just make sure we can create the new one.
try:
# Remove liveuser if it exists (common in Fedora live)
run_command(["chroot", mount_root, "userdel", "-r", "liveuser"], check=False)
except: pass
run_command(["chroot", mount_root, "useradd", "-m", "-G", "wheel", user_info["username"]])
# Set hostname
with open(os.path.join(mount_root, "etc/hostname"), "w") as f:
f.write(user_info["hostname"] + "\n")
# Set passwords
try:
res = subprocess.run(
["openssl", "passwd", "-6", user_info["password"]],
capture_output=True,
text=True,
check=True
)
hashed_pass = res.stdout.strip()
run_command(["chroot", mount_root, "usermod", "-p", hashed_pass, user_info["username"]])
run_command(["chroot", mount_root, "usermod", "-p", hashed_pass, "root"])
except Exception as e:
logger.error(f"Failed to set passwords: {e}")
# 3. Configure Bootloader
if uefi:
logger.info("Configuring systemd-boot...")
# Remove any copied machine-id to ensure a unique one is generated
mid_path = os.path.join(mount_root, "etc/machine-id")
if os.path.exists(mid_path):
os.remove(mid_path)
run_command(["chroot", mount_root, "systemd-machine-id-setup"])
os.makedirs(os.path.join(mount_root, "etc/kernel"), exist_ok=True)
with open(os.path.join(mount_root, "etc/kernel/cmdline"), "w") as f:
f.write(f"root=UUID={root_uuid} rw quiet\n")
with open(os.path.join(mount_root, "etc/kernel/layout"), "w") as f:
f.write("bls\n")
# Cleanup existing systemd-boot files to ensure a fresh install since --force is not supported
for d in ["loader", "EFI/systemd", "EFI/BOOT"]:
path = os.path.join(mount_root, "boot", d)
if os.path.exists(path):
import shutil
if os.path.isdir(path):
shutil.rmtree(path)
else:
os.remove(path)
# Initialize systemd-boot
run_command(["chroot", mount_root, "bootctl", "install", "--path=/boot"])
# Sync kernels and generate BLS entries
# Since we rsync'd, kernels are in /lib/modules and /boot
# We use kernel-install to make sure they are properly set up for systemd-boot
modules_dir = os.path.join(mount_root, "lib/modules")
if os.path.exists(modules_dir):
kvers = [d for d in os.listdir(modules_dir) if os.path.isdir(os.path.join(modules_dir, d))]
for kver in kvers:
logger.info(f"Setting up boot entries for kernel {kver}...")
# Ensure initramfs exists in /boot (rsync should have copied it, but let's be sure)
initrd_path = f"/boot/initramfs-{kver}.img"
vmlinuz_path = f"/boot/vmlinuz-{kver}"
if not os.path.exists(os.path.join(mount_root, initrd_path.lstrip("/"))):
logger.info(f"Generating initramfs for {kver}...")
run_command(["chroot", mount_root, "dracut", "--force", initrd_path, kver])
# kernel-install add <version> <image> [initrd]
# On Fedora, kernel-install add will populate /boot/<machine-id>/<version>/
if os.path.exists(os.path.join(mount_root, vmlinuz_path.lstrip("/"))):
run_command(["chroot", mount_root, "kernel-install", "add", kver, vmlinuz_path])
else:
logger.info("Configuring GRUB2 (BIOS)...")
# Ensure /etc/default/grub exists
grub_default = os.path.join(mount_root, "etc/default/grub")
if not os.path.exists(grub_default):
with open(grub_default, "w") as f:
f.write('GRUB_TIMEOUT=5\nGRUB_DISTRIBUTOR="$(sed \'s, release .*$,,g\' /etc/system-release)"\nGRUB_DEFAULT=saved\nGRUB_DISABLE_SUBMENU=true\nGRUB_TERMINAL_OUTPUT="console"\nGRUB_CMDLINE_LINUX="rhgb quiet"\nGRUB_DISABLE_RECOVERY="true"\nGRUB_ENABLE_BLSCFG=true\n')
if not disk_device:
disk_device = partition_info["root"].rstrip("0123456789")
if disk_device.endswith("p"): disk_device = disk_device[:-1]
logger.info(f"Installing GRUB to {disk_device} (BIOS)")
run_command(["chroot", mount_root, "grub2-install", "--target=i386-pc", disk_device])
run_command(["chroot", mount_root, "grub2-mkconfig", "-o", "/boot/grub2/grub.cfg"])
run_command(["sync"])
logger.info("System configuration complete.")
log_os_install("CONFIGURE", "complete", "Bootloader and user configured successfully")

111
iridium_installer/main.py
View File

@@ -1,31 +1,118 @@
import argparse
import sys
import logging
import gi
# Configure logging
logging.basicConfig(level=logging.INFO)
gi.require_version("Gtk", "4.0")
gi.require_version("Adw", "1")
# Initialize network logging (TESTING BRANCH ONLY)
from .backend.network_logging import init_network_logging, add_discord_handler, send_full_log
from gi.repository import Adw, Gio, Gtk
from .ui.window import InstallerWindow
init_network_logging(enabled=True)
add_discord_handler(logging.getLogger("iridium_installer"))
logger = logging.getLogger(__name__)
class IridiumInstallerApp(Adw.Application):
def __init__(self):
def main():
parser = argparse.ArgumentParser(description="Iridium OS Installer")
parser.add_argument(
"--mock",
action="store_true",
help="Run in mock mode (no actual changes to disk)",
)
parser.add_argument(
"--partition-disk",
help="Automatically partition the specified disk (WARNING: DESTROYS DATA)",
)
parser.add_argument(
"--full-install",
help="Run a full minimal installation on the specified disk (WARNING: DESTROYS DATA)",
)
args = parser.parse_args()
if args.partition_disk or args.full_install:
from .backend.disk import auto_partition_disk, mount_partitions
from .backend.os_install import install_minimal_os, configure_system
target = args.partition_disk or args.full_install
logger.info(f"INSTALLER_START: Starting installation on {target}")
try:
print(f"Starting installation on {target}...")
print("Step 1: Partitioning...")
logger.info(f"INSTALLER_PARTITION: Partitioning disk {target}")
parts = auto_partition_disk(target)
logger.info(f"INSTALLER_PARTITION_COMPLETE: Created partitions {parts}")
if args.full_install:
print("Step 2: Mounting...")
logger.info("INSTALLER_MOUNT: Mounting partitions")
mount_root = "/mnt"
mount_partitions(parts, mount_root)
print("Step 3: Installing OS (this may take a while)...")
logger.info("INSTALLER_OS_INSTALL: Installing minimal OS")
install_minimal_os(mount_root)
logger.info("INSTALLER_OS_INSTALL_COMPLETE: OS installed successfully")
print("Step 4: Configuring Bootloader...")
logger.info("INSTALLER_BOOTLOADER: Configuring bootloader")
# Default user for CLI install (since we don't have user input in CLI args yet)
user_info = {
"username": "admin",
"password": "password", # Insecure default for CLI dev testing
"hostname": "iridium-cli"
}
configure_system(mount_root, parts, user_info, disk_device=target)
logger.info("INSTALLER_BOOTLOADER_COMPLETE: Bootloader configured")
print("Installation complete! You can now reboot.")
logger.info(
"INSTALLER_COMPLETE: Full installation finished successfully"
)
else:
print("Partitioning successful!")
print(f"EFI: {parts['efi']}")
print(f"Swap: {parts['swap']}")
print(f"Root: {parts['root']}")
send_full_log()
return 0
except Exception as e:
error_msg = str(e)
print(f"Installation failed: {e}", file=sys.stderr)
logger.error(f"INSTALLER_ERROR: {error_msg}")
import traceback
traceback.print_exc()
logger.error(f"INSTALLER_TRACEBACK: {traceback.format_exc()}")
send_full_log()
return 1
import gi
gi.require_version("Gtk", "4.0")
gi.require_version("Adw", "1")
from gi.repository import Adw, Gio
from .ui.window import InstallerWindow
class IridiumInstallerApp(Adw.Application):
def __init__(self, mock_mode=False):
super().__init__(
application_id="org.iridium.Installer",
flags=Gio.ApplicationFlags.FLAGS_NONE,
)
self.mock_mode = mock_mode
def do_activate(self):
win = self.props.active_window
if not win:
win = InstallerWindow(application=self)
win = InstallerWindow(application=self, mock_mode=self.mock_mode)
win.present()
def main():
app = IridiumInstallerApp()
app = IridiumInstallerApp(mock_mode=args.mock)
return app.run(sys.argv)

25
iridium_installer/ui/pages/additional_modules.py
View File

@@ -13,6 +13,12 @@ class ModulesPage(Adw.Bin):
self.chromebook_audio = False
self.android_apps = False
self.module_titles = {
"nvidia_drivers": "Proprietary NVIDIA Drivers",
"chromebook_audio": "Chromebook Audio Fixes",
"android_apps": "Android Apps Support",
}
# Main Layout
clamp = Adw.Clamp()
clamp.set_maximum_size(600)
@@ -46,21 +52,21 @@ class ModulesPage(Adw.Bin):
# NVIDIA Drivers
self.add_module_row(
"Proprietary NVIDIA Drivers",
self.module_titles["nvidia_drivers"],
"Install proprietary drivers for NVIDIA graphics cards for better performance.",
"nvidia_drivers",
)
# Chromebook Audio
self.add_module_row(
"Chromebook Audio Fixes",
self.module_titles["chromebook_audio"],
"Install additional audio drivers for Chromebook devices.",
"chromebook_audio",
)
# Android Apps
self.add_module_row(
"Android Apps Support",
self.module_titles["android_apps"],
"Install Waydroid to run Android applications on Iridium OS.",
"android_apps",
)
@@ -85,8 +91,11 @@ class ModulesPage(Adw.Bin):
setattr(self, attr_name, switch.get_active())
def get_modules(self):
return {
"nvidia_drivers": self.nvidia_drivers,
"chromebook_audio": self.chromebook_audio,
"android_apps": self.android_apps,
}
enabled_modules = []
if self.nvidia_drivers:
enabled_modules.append(self.module_titles["nvidia_drivers"])
if self.chromebook_audio:
enabled_modules.append(self.module_titles["chromebook_audio"])
if self.android_apps:
enabled_modules.append(self.module_titles["android_apps"])
return enabled_modules

238
iridium_installer/ui/pages/partitioning.py
View File

@@ -43,7 +43,6 @@ CSS = """
def get_total_memory() -> int:
"""Returns total system memory in bytes."""
try:
return os.sysconf("SC_PAGE_SIZE") * os.sysconf("SC_PHYS_PAGES")
except (ValueError, OSError):
@@ -55,14 +54,13 @@ def get_total_memory() -> int:
return 0
def is_uefi():
return os.path.exists("/sys/firmware/efi")
def calculate_auto_partitions(disk_device):
"""
Generates an automatic partition layout.
- 2GB EFI
- RAM + 2GB Swap
- Rest Root (ext4)
"""
disk_size = 0
uefi = is_uefi()
try:
# Get disk size in bytes
result = subprocess.run(
@@ -87,21 +85,36 @@ def calculate_auto_partitions(disk_device):
return []
ram_size = get_total_memory()
disk_mb = disk_size / (1024 * 1024)
# Sizes in bytes
efi_size = 2 * 1024 * 1024 * 1024
# Defaults
efi_size = 1024 * 1024 * 1024 if uefi else 0
swap_size = ram_size + (2 * 1024 * 1024 * 1024)
min_root_size = 10 * 1024 * 1024 * 1024 # 10GB
# Check if disk is large enough
min_root = 10 * 1024 * 1024 * 1024 # minimum 10GB for root
if disk_size < (efi_size + swap_size + min_root):
# Cap swap for auto-calc if disk is small
if disk_size < 100 * 1024**3:
swap_size = min(swap_size, 4 * 1024**3)
total_required = efi_size + swap_size + min_root_size
use_swap = True
if disk_size < total_required:
if uefi:
efi_size = 512 * 1024 * 1024
use_swap = False
swap_size = 0
if disk_size < (efi_size + min_root_size):
print("Disk too small for automatic partitioning scheme.")
return []
root_size = disk_size - efi_size - swap_size
partitions = [
{
partitions = []
if uefi:
partitions.append({
"type": "partition",
"name": "EFI System",
"filesystem": "vfat",
@@ -109,7 +122,20 @@ def calculate_auto_partitions(disk_device):
"size": f"{efi_size / (1024**3):.1f} GB",
"bytes": efi_size,
"style_class": "part-efi",
},
})
partitions.append({
"type": "partition",
"name": "Root",
"filesystem": "ext4",
"mount_point": "/",
"size": f"{root_size / (1024**3):.1f} GB",
"bytes": root_size,
"style_class": "part-root",
})
if use_swap:
partitions.append(
{
"type": "partition",
"name": "Swap",
@@ -118,17 +144,8 @@ def calculate_auto_partitions(disk_device):
"size": f"{swap_size / (1024**3):.1f} GB",
"bytes": swap_size,
"style_class": "part-swap",
},
{
"type": "partition",
"name": "Root",
"filesystem": "ext4",
"mount_point": "/",
"size": f"{root_size / (1024**3):.1f} GB",
"bytes": root_size,
"style_class": "part-root",
},
]
}
)
return partitions
@@ -236,6 +253,7 @@ class PartitioningPage(Adw.Bin):
# Initially empty until loaded with a specific disk
def load_partitions(self, disk_device=None):
self.current_disk_path = disk_device
target_disk = None
try:
@@ -290,7 +308,7 @@ class PartitioningPage(Adw.Bin):
p_size = int(p.get("size", 0))
covered_size += p_size
fstype = p.get("fstype", "").lower()
fstype = (p.get("fstype") or "").lower()
style = "part-root"
if "fat" in fstype or "efi" in fstype:
style = "part-efi"
@@ -301,7 +319,7 @@ class PartitioningPage(Adw.Bin):
{
"type": "partition",
"name": p.get("name"),
"filesystem": p.get("fstype", "Unknown"),
"filesystem": p.get("fstype") or "Unknown",
"label": p.get("name"),
"mount_point": p.get("mountpoint", ""),
"size": self.format_size(p_size),
@@ -428,46 +446,184 @@ class PartitioningPage(Adw.Bin):
def show_context_menu(self, widget, x, y):
data = widget.part_data
self.selected_disk_path = self.current_disk_path # Assumes we store this
popover = Gtk.Popover()
popover.set_parent(widget)
menu_box = Gtk.Box(orientation=Gtk.Orientation.VERTICAL)
menu_box.set_spacing(0)
popover.set_child(menu_box)
def add_menu_item(label, icon_name=None, destructive=False):
def add_menu_item(label, icon_name, callback, destructive=False):
btn = Gtk.Button(label=label)
btn.add_css_class("flat")
btn.set_halign(Gtk.Align.FILL)
if destructive:
btn.add_css_class("destructive-action")
if icon_name:
content = Gtk.Box(orientation=Gtk.Orientation.HORIZONTAL)
content.set_spacing(12)
content = Gtk.Box(orientation=Gtk.Orientation.HORIZONTAL, spacing=12)
icon = Gtk.Image.new_from_icon_name(icon_name)
lbl = Gtk.Label(label=label)
content.append(icon)
content.append(lbl)
btn.set_child(content)
btn.connect("clicked", lambda b: [popover.popdown(), callback()])
menu_box.append(btn)
return btn
if data.get("type") == "partition":
add_menu_item("Select Mount Point", "folder-open-symbolic")
add_menu_item("Format", "drive-harddisk-symbolic")
add_menu_item("Resize", "object-resize-symbolic")
add_menu_item(
"Select Mount Point",
"folder-open-symbolic",
lambda: self.select_mount_point(data),
)
separator = Gtk.Separator()
menu_box.append(separator)
btn_del = add_menu_item("Delete", "user-trash-symbolic", destructive=True)
btn_del.add_css_class("error")
add_menu_item(
"Delete",
"user-trash-symbolic",
lambda: self.delete_part(data),
destructive=True,
)
elif data.get("type") == "empty":
add_menu_item("Create Partition", "list-add-symbolic")
add_menu_item(
"Create Partition",
"list-add-symbolic",
lambda: self.create_part_dialog(data),
)
popover.popup()
def select_mount_point(self, data):
win = Adw.Window(
title="Select Mount Point", modal=True, transient_for=self.get_root()
)
box = Gtk.Box(
orientation=Gtk.Orientation.VERTICAL,
spacing=12,
margin_top=24,
margin_bottom=24,
margin_start=24,
margin_end=24,
)
win.set_content(box)
options = ["/", "/boot", "[SWAP]", "None"]
dropdown = Gtk.DropDown.new_from_strings(options)
current_mp = data.get("mount_point")
# Ensure we have a valid string comparison
if not current_mp:
current_mp = "None"
if current_mp in options:
dropdown.set_selected(options.index(current_mp))
else:
dropdown.set_selected(options.index("None"))
box.append(Gtk.Label(label=f"Mount point for {data['name']}:"))
box.append(dropdown)
def on_apply(b):
selected = options[dropdown.get_selected()]
data["mount_point"] = selected if selected != "None" else ""
win.close()
self.refresh_bar()
btn = Gtk.Button(label="Apply")
btn.add_css_class("suggested-action")
btn.connect("clicked", on_apply)
box.append(btn)
win.present()
def delete_part(self, data):
# Extract partition number from name (e.g., nvme0n1p3 -> 3)
import re
from ...backend.disk import delete_partition
match = re.search(r"(\d+)$", data["name"])
if match:
part_num = int(match.group(1))
delete_partition(self.current_disk_path, part_num)
self.load_partitions(self.current_disk_path)
def create_part_dialog(self, data):
win = Adw.Window(
title="Create Partition", modal=True, transient_for=self.get_root()
)
box = Gtk.Box(
orientation=Gtk.Orientation.VERTICAL,
spacing=12,
margin_top=24,
margin_bottom=24,
margin_start=24,
margin_end=24,
)
win.set_content(box)
# Type dropdown
types = {"Root (Linux)": "8300", "EFI System": "ef00", "Swap": "8200"}
type_names = list(types.keys())
type_dropdown = Gtk.DropDown.new_from_strings(type_names)
box.append(Gtk.Label(label="Partition Type:"))
box.append(type_dropdown)
# Size entry
size_box = Gtk.Box(orientation=Gtk.Orientation.HORIZONTAL, spacing=12)
size_entry = Gtk.Entry(text=str(int(data["bytes"] / (1024 * 1024))))
size_entry.set_width_chars(15)
size_box.append(size_entry)
size_box.append(Gtk.Label(label="MB"))
box.append(Gtk.Label(label="Size:"))
box.append(size_box)
error_label = Gtk.Label(label="")
error_label.add_css_class("error")
box.append(error_label)
def on_create(b):
from ...backend.disk import create_partition
selected_type = type_names[type_dropdown.get_selected()]
# Default name and fstype based on type
if selected_type == "EFI System":
name = "EFI System"
fstype = "fat32"
elif selected_type == "Swap":
name = "Swap"
fstype = "swap"
else:
name = "Linux filesystem"
fstype = "ext4"
size_text = size_entry.get_text()
try:
size_mb = int(size_text)
max_mb = int(data["bytes"] / (1024 * 1024))
if size_mb >= max_mb:
size_mb = 0
except ValueError:
error_label.set_text("Invalid size value")
return
type_code = types[selected_type]
try:
create_partition(
self.current_disk_path, size_mb, type_code, name, fstype
)
win.close()
self.load_partitions(self.current_disk_path)
except Exception as e:
error_label.set_text(f"Error: {str(e)}")
btn = Gtk.Button(label="Create")
btn.add_css_class("suggested-action")
btn.connect("clicked", on_create)
box.append(btn)
win.present()
def get_config(self):
return {"partitions": self.partitions}

9
iridium_installer/ui/pages/storage.py
View File

@@ -89,8 +89,13 @@ class StoragePage(Adw.Bin):
def on_disk_toggled(self, button, device_name):
if button.get_active():
self.selected_disk = device_name
self.emit("disk-selected", device_name)
# Prepend /dev/ if it's just the name
full_path = device_name
if not device_name.startswith("/dev/"):
full_path = f"/dev/{device_name}"
self.selected_disk = full_path
self.emit("disk-selected", full_path)
def get_selected_disk(self):
return self.selected_disk

65
iridium_installer/ui/pages/user.py
View File

@@ -1,14 +1,22 @@
import re
import gi
gi.require_version("Gtk", "4.0")
gi.require_version("Adw", "1")
from gi.repository import Adw, Gtk
from gi.repository import Adw, GObject, Gtk
class UserPage(Adw.Bin):
__gsignals__ = {
"validity-changed": (GObject.SignalFlags.RUN_FIRST, None, (bool,)),
}
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
self._is_valid = False
clamp = Adw.Clamp()
clamp.set_maximum_size(500)
self.set_child(clamp)
@@ -32,6 +40,7 @@ class UserPage(Adw.Bin):
self.fullname_row.set_title("Full Name")
self.fullname_row.set_text("Administrator")
self.fullname_row.connect("notify::text", self.on_fullname_changed)
self.fullname_row.connect("notify::text", self.on_input_changed)
group.add(self.fullname_row)
self.username_row = Adw.EntryRow()
@@ -40,14 +49,17 @@ class UserPage(Adw.Bin):
self.username_handler_id = self.username_row.connect(
"notify::text", self.on_username_changed
)
self.username_row.connect("notify::text", self.on_input_changed)
group.add(self.username_row)
self.password_row = Adw.PasswordEntryRow()
self.password_row.set_title("Password")
self.password_row.connect("notify::text", self.on_input_changed)
group.add(self.password_row)
self.confirm_row = Adw.PasswordEntryRow()
self.confirm_row.set_title("Confirm Password")
self.confirm_row.connect("notify::text", self.on_input_changed)
group.add(self.confirm_row)
# Hostname
@@ -58,10 +70,14 @@ class UserPage(Adw.Bin):
self.hostname_row = Adw.EntryRow()
self.hostname_row.set_title("Hostname")
self.hostname_row.set_text("iridium")
self.hostname_row.connect("notify::text", self.on_input_changed)
host_group.add(self.hostname_row)
self.username_manually_set = False
# Initial validation
self.validate()
def on_fullname_changed(self, entry, _pspec):
if self.username_manually_set:
return
@@ -113,6 +129,53 @@ class UserPage(Adw.Bin):
def on_username_changed(self, entry, _pspec):
self.username_manually_set = True
def on_input_changed(self, *args):
self.validate()
def validate(self):
valid = True
# Username validation
username = self.username_row.get_text()
if not username:
valid = False
self.username_row.add_css_class("error")
elif not re.match(r"^[a-z_][a-z0-9_-]*$", username):
valid = False
self.username_row.add_css_class("error")
else:
self.username_row.remove_css_class("error")
# Password validation
pw = self.password_row.get_text()
confirm = self.confirm_row.get_text()
if not pw:
valid = False
# Don't show error for empty password initially, just invalidate
# It looks a lot nicer like that
if pw != confirm:
valid = False
self.confirm_row.add_css_class("error")
else:
self.confirm_row.remove_css_class("error")
# Hostname validation
hostname = self.hostname_row.get_text()
if not hostname:
valid = False
self.hostname_row.add_css_class("error")
else:
self.hostname_row.remove_css_class("error")
if self._is_valid != valid:
self._is_valid = valid
self.emit("validity-changed", valid)
def is_valid(self):
return self._is_valid
def get_user_info(self):
return {
"fullname": self.fullname_row.get_text(),

24
iridium_installer/ui/pages/welcome.py
View File

@@ -1,8 +1,10 @@
import os
import gi
gi.require_version("Gtk", "4.0")
gi.require_version("Adw", "1")
from gi.repository import Adw, Gtk
from gi.repository import Adw, Gdk, Gtk
class WelcomePage(Adw.Bin):
@@ -12,13 +14,30 @@ class WelcomePage(Adw.Bin):
page = Adw.StatusPage()
page.set_title("Welcome to Iridium OS")
page.set_description("The installation will begin shortly")
# Load custom icon
icon_path = os.path.join(
os.path.dirname(__file__),
"..",
"..",
"..",
"data",
"icons",
"org.iridium.Installer.svg",
)
if os.path.exists(icon_path):
try:
paintable = Gdk.Texture.new_from_filename(icon_path)
page.set_paintable(paintable)
except Exception:
page.set_icon_name("system-software-install-symbolic")
else:
page.set_icon_name("system-software-install-symbolic")
# Content Box
box = Gtk.Box(orientation=Gtk.Orientation.VERTICAL)
box.set_spacing(12)
box.set_halign(Gtk.Align.CENTER)
box.set_valign(Gtk.Align.CENTER)
lbl = Gtk.Label(label="Select your language:")
lbl.add_css_class("heading")
@@ -29,7 +48,6 @@ class WelcomePage(Adw.Bin):
"English",
]
dropdown = Gtk.DropDown.new_from_strings(languages)
dropdown.set_margin_bottom(20)
box.append(dropdown)
page.set_child(box)

360
iridium_installer/ui/window.py
View File

@@ -1,24 +1,51 @@
import gi
import threading
import logging
import uuid
from datetime import datetime
gi.require_version("Gtk", "4.0")
gi.require_version("Adw", "1")
from gi.repository import Adw, Gtk
from gi.repository import Adw, Gtk, GLib
from .pages.additional_modules import ModulesPage
from .pages.install_mode import InstallModePage
from .pages.partitioning import PartitioningPage, calculate_auto_partitions
from .pages.storage import StoragePage
from .pages.summary import SummaryPage
from .pages.user import UserPage
from .pages.welcome import WelcomePage
from .pages.summary import SummaryPage
from ..backend.network_logging import log_to_discord, flush_logs, send_full_log
class LogHandler(logging.Handler):
def __init__(self, callback):
super().__init__()
self.callback = callback
def emit(self, record):
msg = self.format(record)
GLib.idle_add(self.callback, msg)
class InstallerWindow(Adw.ApplicationWindow):
def __init__(self, *args, **kwargs):
def __init__(self, mock_mode=False, *args, **kwargs):
super().__init__(*args, **kwargs)
self.mock_mode = mock_mode
self.session_id = str(uuid.uuid4())[:8]
# Send session start ping
mode_str = "MOCK" if mock_mode else "PRODUCTION"
log_to_discord(
"SESSION_START",
f"Iridium Installer started - Session: {self.session_id} - Mode: {mode_str}",
"installer",
)
self.set_default_size(900, 650)
self.set_title("Iridium Installer")
self.set_title("Iridium Installer" + (" (MOCK MODE)" if mock_mode else ""))
self.set_icon_name("org.iridium.Installer")
self.toolbar_view = Adw.ToolbarView()
self.set_content(self.toolbar_view)
@@ -71,6 +98,7 @@ class InstallerWindow(Adw.ApplicationWindow):
self.partitioning_page = PartitioningPage()
self.modules_page = ModulesPage()
self.user_page = UserPage()
self.user_page.connect("validity-changed", self.on_user_validity_changed)
self.summary_page = SummaryPage()
# Add Pages
@@ -87,6 +115,8 @@ class InstallerWindow(Adw.ApplicationWindow):
self.stack.set_visible_child_name(self.page_ids[0])
self.update_buttons()
self.log_handler = None
def add_page(self, widget, name):
self.stack.add_named(widget, name)
self.page_ids.append(name)
@@ -94,6 +124,9 @@ class InstallerWindow(Adw.ApplicationWindow):
def on_disk_selected(self, page, device_name):
self.update_buttons()
def on_user_validity_changed(self, page, valid):
self.update_buttons()
def update_buttons(self):
# Back button state
self.back_button.set_sensitive(self.current_page_index > 0)
@@ -105,11 +138,15 @@ class InstallerWindow(Adw.ApplicationWindow):
forced_selection = True
if current_page_name == "storage":
forced_selection = self.storage_page.get_selected_disk() is not None
elif current_page_name == "user":
forced_selection = self.user_page.is_valid()
self.next_button.set_sensitive(forced_selection)
if current_page_name == "summary":
self.next_button.set_label("Install")
self.next_button.set_label(
"Install" + (" (MOCK)" if self.mock_mode else "")
)
self.next_button.add_css_class("destructive-action")
self.next_button.remove_css_class("suggested-action")
else:
@@ -134,18 +171,261 @@ class InstallerWindow(Adw.ApplicationWindow):
self.stack.set_visible_child_name(self.page_ids[self.current_page_index])
self.update_buttons()
def show_progress_page(self, message):
prog_page = Adw.StatusPage()
prog_page.set_title(message)
prog_page.set_description("Please wait while we set up your system.")
spinner = Gtk.Spinner()
spinner.set_size_request(32, 32)
spinner.set_halign(Gtk.Align.CENTER)
spinner.start()
box = Gtk.Box(orientation=Gtk.Orientation.VERTICAL, spacing=12)
self.progress_bar = Gtk.ProgressBar()
self.progress_bar.set_show_text(True)
self.progress_bar.set_margin_start(24)
self.progress_bar.set_margin_end(24)
box.append(self.progress_bar)
box.append(spinner)
# Log view
self.log_buffer = Gtk.TextBuffer()
self.log_view = Gtk.TextView(buffer=self.log_buffer)
self.log_view.set_editable(False)
self.log_view.set_monospace(True)
self.log_view.set_wrap_mode(Gtk.WrapMode.WORD_CHAR)
scrolled = Gtk.ScrolledWindow()
scrolled.set_child(self.log_view)
scrolled.set_vexpand(True)
scrolled.set_size_request(-1, 200)
# Style the log view background
# css_provider = Gtk.CssProvider()
# css_provider.load_from_data(b"textview { background-color: #1e1e1e; color: #ffffff; }")
# self.log_view.get_style_context().add_provider(css_provider, Gtk.STYLE_PROVIDER_PRIORITY_APPLICATION)
expander = Gtk.Expander(label="Detailed Logs")
expander.set_child(scrolled)
box.append(expander)
prog_page.set_child(box)
name = "progress_install"
self.stack.add_named(prog_page, name)
self.stack.set_visible_child_name(name)
# Hide navigation buttons during install
self.bottom_bar.set_visible(False)
# Attach log handler
self.log_handler = LogHandler(self.append_log)
logging.getLogger().addHandler(self.log_handler)
logging.getLogger().setLevel(logging.INFO)
def append_log(self, msg):
end_iter = self.log_buffer.get_end_iter()
self.log_buffer.insert(end_iter, msg + "\n")
# Auto-scroll
mark = self.log_buffer.create_mark("end", end_iter, False)
self.log_view.scroll_to_mark(mark, 0.0, True, 0.0, 1.0)
# Update progress bar based on keywords or rsync progress
msg_lower = msg.lower()
if "step 1:" in msg_lower:
self.progress_bar.set_fraction(0.1)
self.progress_bar.set_text("Partitioning...")
elif "step 2:" in msg_lower:
self.progress_bar.set_fraction(0.2)
self.progress_bar.set_text("Mounting...")
elif "step 3:" in msg_lower:
self.progress_bar.set_fraction(0.3)
self.progress_bar.set_text("Installing OS...")
elif "step 4:" in msg_lower:
self.progress_bar.set_fraction(0.9)
self.progress_bar.set_text("Configuring Bootloader...")
elif "%" in msg and "to-check" in msg:
# Parse rsync progress (e.g., "1,234,567 80% 10.00MB/s 0:00:05")
import re
match = re.search(r"(\d+)%", msg)
if match:
percentage = int(match.group(1))
# Map 0-100% of rsync to 0.3-0.8 of total progress
fraction = 0.3 + (percentage / 100.0) * 0.5
self.progress_bar.set_fraction(fraction)
self.progress_bar.set_text(f"Syncing files... {percentage}%")
def show_finish_page(self, message, success=True):
if self.log_handler:
logging.getLogger().removeHandler(self.log_handler)
self.log_handler = None
# Release wake lock if held
if hasattr(self, "inhibit_cookie") and self.inhibit_cookie:
app = self.get_application()
app.uninhibit(self.inhibit_cookie)
self.inhibit_cookie = None
finish_page = Adw.StatusPage()
finish_page.set_title(message)
btn = Gtk.Button()
btn.set_halign(Gtk.Align.CENTER)
if success:
finish_page.set_icon_name("emblem-ok-symbolic")
finish_page.set_description("You can now restart your computer.")
btn.set_label("Restart System")
btn.add_css_class("suggested-action")
btn.add_css_class("pill")
def on_restart(b):
import subprocess
try:
# Use sudo since we might be running as liveuser
subprocess.run(["sudo", "systemctl", "reboot"])
except Exception as e:
print(f"Failed to reboot: {e}")
self.close()
btn.connect("clicked", on_restart)
else:
finish_page.set_icon_name("dialog-error-symbolic")
finish_page.set_description("An error occurred during installation.")
btn.set_label("Close Installer")
btn.connect("clicked", lambda b: self.close())
finish_page.set_child(btn)
name = "finish_install"
self.stack.add_named(finish_page, name)
self.stack.set_visible_child_name(name)
def run_installation(self, disk, mode, modules, user_info):
try:
from ..backend.disk import auto_partition_disk, mount_partitions
from ..backend.os_install import install_minimal_os, configure_system
from ..backend.network_logging import log_to_discord as nlog
# Step 1: Partitioning
logging.info("Step 1: Partitioning...")
nlog(
"INSTALL_PROGRESS",
f"Session: {self.session_id} - Starting partitioning on {disk}",
"installer",
)
parts = auto_partition_disk(disk)
nlog(
"INSTALL_PROGRESS",
f"Session: {self.session_id} - Partitioning complete",
"installer",
)
# Step 2: Mounting
logging.info("Step 2: Mounting...")
nlog(
"INSTALL_PROGRESS",
f"Session: {self.session_id} - Mounting partitions",
"installer",
)
mount_root = "/mnt"
mount_partitions(parts, mount_root)
nlog(
"INSTALL_PROGRESS",
f"Session: {self.session_id} - Mounting complete",
"installer",
)
# Step 3: OS Installation
logging.info("Step 3: OS Installation...")
nlog(
"INSTALL_PROGRESS",
f"Session: {self.session_id} - Installing OS (this may take a while)",
"installer",
)
install_minimal_os(mount_root)
nlog(
"INSTALL_PROGRESS",
f"Session: {self.session_id} - OS installation complete",
"installer",
)
# Step 4: Configure
logging.info("Step 4: Configuration...")
nlog(
"INSTALL_PROGRESS",
f"Session: {self.session_id} - Configuring bootloader and user",
"installer",
)
configure_system(mount_root, parts, user_info, disk_device=disk)
nlog(
"INSTALL_PROGRESS",
f"Session: {self.session_id} - Configuration complete",
"installer",
)
# Install complete
nlog(
"INSTALL_COMPLETE",
f"Session: {self.session_id} - Installation completed successfully!",
"installer",
)
flush_logs()
send_full_log()
GLib.idle_add(self.show_finish_page, "Installation Successful!", True)
except Exception as e:
error_msg = str(e)
logging.error(f"Installation failed: {e}")
nlog(
"INSTALL_ERROR",
f"Session: {self.session_id} - Installation failed: {error_msg}",
"installer",
)
import traceback
traceback.print_exc()
nlog(
"INSTALL_ERROR",
f"Session: {self.session_id} - Traceback: {traceback.format_exc()}",
"installer",
)
flush_logs()
send_full_log()
GLib.idle_add(self.show_finish_page, f"Installation Failed: {e}", False)
def on_next_clicked(self, button):
# Logic before transition
# Log navigation
current_page_name = self.page_ids[self.current_page_index]
mode_str = "MOCK" if self.mock_mode else "PRODUCTION"
log_to_discord(
"NAVIGATION_NEXT",
f"Session: {self.session_id} - Page: {current_page_name} - Mode: {mode_str}",
"installer",
)
# Logic before transition
if current_page_name == "storage":
selected_disk = self.storage_page.get_selected_disk()
log_to_discord(
"SELECTION",
f"Session: {self.session_id} - Selected disk: {selected_disk}",
"installer",
)
self.partitioning_page.load_partitions(selected_disk)
next_index = self.current_page_index + 1
if current_page_name == "install_mode":
mode = self.install_mode_page.get_mode()
log_to_discord(
"SELECTION",
f"Session: {self.session_id} - Install mode: {mode}",
"installer",
)
if mode == "automatic":
# Skip partitioning page
next_index = self.page_ids.index("modules")
@@ -153,6 +433,14 @@ class InstallerWindow(Adw.ApplicationWindow):
# Go to partitioning page
next_index = self.page_ids.index("partitioning")
if current_page_name == "modules":
modules = self.modules_page.get_modules()
log_to_discord(
"SELECTION",
f"Session: {self.session_id} - Selected modules: {modules}",
"installer",
)
if current_page_name == "user":
# Prepare summary instead of installing immediately
disk = self.storage_page.get_selected_disk()
@@ -160,6 +448,13 @@ class InstallerWindow(Adw.ApplicationWindow):
modules = self.modules_page.get_modules()
user_info = self.user_page.get_user_info()
# Log user info (without password for security)
log_to_discord(
"SELECTION",
f"Session: {self.session_id} - User: {user_info.get('username', 'N/A')}, Hostname: {user_info.get('hostname', 'N/A')}, Sudo: {user_info.get('allow_sudo', False)}",
"installer",
)
partitions_config = {}
if mode == "manual":
partitions_config = self.partitioning_page.get_config()
@@ -173,7 +468,7 @@ class InstallerWindow(Adw.ApplicationWindow):
mode=mode,
partitions=partitions_config,
user_info=user_info,
modules=modules
modules=modules,
)
# Proceed to summary page (which is next_index after user)
@@ -181,22 +476,49 @@ class InstallerWindow(Adw.ApplicationWindow):
# THIS IS THE REAL INSTALL TRIGGER
print("Install process triggered!")
disk = self.storage_page.get_selected_disk()
print(f"Disk: {disk}")
mode = self.install_mode_page.get_mode()
print(f"Mode: {mode}")
modules = self.modules_page.get_modules()
print(f"Modules: {modules}")
user_info = self.user_page.get_user_info()
print(f"User: {user_info}")
# Recalculate or retrieve partitions just to be safe/consistent
partitions_config = {}
if mode == "manual":
partitions_config = self.partitioning_page.get_config()
elif mode == "automatic":
partitions = calculate_auto_partitions(disk)
partitions_config = {"partitions": partitions}
print(f"Partitioning: {partitions_config}")
# Log the install trigger with full config
log_to_discord(
"INSTALL_START",
f"Session: {self.session_id} - Disk: {disk} - Mode: {mode} - Modules: {modules} - Mock: {self.mock_mode}",
"installer",
)
if self.mock_mode:
print("!!! MOCK MODE ENABLED - NO CHANGES WILL BE MADE !!!")
print(f"Target Disk: {disk}")
print(f"Mode: {mode}")
print(f"Modules: {modules}")
print(f"User: {user_info}")
print("Simulation complete.")
log_to_discord(
"INSTALL_COMPLETE",
f"Session: {self.session_id} - Mock installation complete",
"installer",
)
flush_logs()
# Show success in UI even in mock
self.show_finish_page("Mock Installation Complete!")
else:
# Inhibit logout/suspend/idle
app = self.get_application()
self.inhibit_cookie = app.inhibit(
self,
Gtk.ApplicationInhibitFlags.LOGOUT | Gtk.ApplicationInhibitFlags.SUSPEND | Gtk.ApplicationInhibitFlags.IDLE,
"Installing Operating System"
)
self.show_progress_page("Installing Iridium OS...")
thread = threading.Thread(
target=self.run_installation,
args=(disk, mode, modules, user_info),
daemon=True,
)
thread.start()
return
if next_index < len(self.page_ids):

52
run.sh
View File

@@ -1,5 +1,53 @@
#!/bin/bash
# Install icons to ~/.local/share/icons if not already installed
ICON_DIR="$HOME/.local/share/icons/hicolor/128x128/apps"
SYMBOLIC_DIR="$HOME/.local/share/icons/hicolor/symbolic/apps"
mkdir -p "$ICON_DIR"
mkdir -p "$SYMBOLIC_DIR"
# Get script directory
SCRIPT_DIR="$(cd "$(dirname "${BASH_SOURCE[0]}")" && pwd)"
# Copy main icon if not exists or if source is newer
if [ ! -f "$ICON_DIR/org.iridium.Installer.svg" ] || [ "${SCRIPT_DIR}/data/icons/org.iridium.Installer.svg" -nt "$ICON_DIR/org.iridium.Installer.svg" ]; then
cp "${SCRIPT_DIR}/data/icons/org.iridium.Installer.svg" "$ICON_DIR/"
echo "Installed 128x128 icon"
fi
# Copy symbolic icon if not exists or if source is newer
if [ ! -f "$SYMBOLIC_DIR/org.iridium.Installer-symbolic.svg" ] || [ "${SCRIPT_DIR}/data/icons/org.iridium.Installer-symbolic.svg" -nt "$SYMBOLIC_DIR/org.iridium.Installer-symbolic.svg" ]; then
cp "${SCRIPT_DIR}/data/icons/org.iridium.Installer-symbolic.svg" "$SYMBOLIC_DIR/org.iridium.Installer-symbolic.svg"
echo "Installed symbolic icon"
fi
# Update icon cache if gtk-update-icon-cache exists
if command -v gtk-update-icon-cache &> /dev/null; then
gtk-update-icon-cache -f -t "$HOME/.local/share/icons/hicolor" 2>/dev/null || true
fi
# Check and install dependencies (Fedora/DNF)
if command -v dnf &> /dev/null; then
DEPENDENCIES="python3-gobject gtk4 libadwaita python3-requests gdisk dosfstools e2fsprogs parted grub2-tools openssl"
MISSING_DEPS=""
for dep in $DEPENDENCIES; do
if ! rpm -q $dep &> /dev/null; then
MISSING_DEPS="$MISSING_DEPS $dep"
fi
done
if [ -n "$MISSING_DEPS" ]; then
echo "Missing dependencies found:$MISSING_DEPS"
echo "Installing..."
sudo dnf install -y $MISSING_DEPS
fi
else
echo "Warning: 'dnf' not found. Automatic dependency installation skipped."
echo "Please ensure you have: python3-gobject gtk4 libadwaita python3-requests gdisk dosfstools e2fsprogs"
fi
export GSETTINGS_SCHEMA_DIR=.
echo "Starting Iridium Installer..."
python3 -m iridium_installer.main
python3 -m iridium_installer.main "$@"

28
run_vm_bios.sh Executable file
View File

@@ -0,0 +1,28 @@
#!/bin/bash
# Configuration
ISO_PATH="${1:-/home/n0va/.local/share/iridium-installer-vm/Fedora.iso}"
DISK_PATH="${2:-/home/n0va/.local/share/iridium-installer-vm/test-disk.qcow2}"
echo "Starting Iridium VM with BIOS (Legacy) support..."
echo "ISO: $ISO_PATH"
echo "Disk: $DISK_PATH"
# QEMU Command with BIOS
qemu-system-x86_64 \
-enable-kvm \
-m 8G \
-smp 2 \
-cpu host \
-drive file="$DISK_PATH",format=qcow2,if=virtio \
-device virtio-scsi-pci,id=scsi0 \
-drive file="$ISO_PATH",format=raw,if=none,id=cdrom,readonly=on \
-device scsi-cd,bus=scsi0.0,drive=cdrom \
-boot order=d \
-netdev user,id=net0 \
-device virtio-net-pci,netdev=net0 \
-vga virtio \
-display gtk,gl=on \
-monitor unix:$HOME/.local/share/iridium-installer-vm/monitor.sock,server,nowait \
-name "Iridium Installer Test VM (BIOS)" \
-loadvm clean-state

44
run_vm_uefi.sh Executable file
View File

@@ -0,0 +1,44 @@
#!/bin/bash
# Configuration
ISO_PATH="${1:-/home/n0va/.local/share/iridium-installer-vm/Fedora.iso}"
DISK_PATH="${2:-/home/n0va/.local/share/iridium-installer-vm/test-disk.qcow2}"
OVMF_CODE="/usr/share/edk2/x64/OVMF_CODE.4m.fd"
OVMF_VARS_TEMPLATE="/usr/share/edk2/x64/OVMF_VARS.4m.fd"
OVMF_VARS_LOCAL="/tmp/iridium_vm_vars.qcow2"
# Ensure OVMF vars exist in qcow2 format for snapshot support
if [ ! -f "$OVMF_VARS_LOCAL" ]; then
if [ -f "$OVMF_VARS_TEMPLATE" ]; then
echo "Creating UEFI vars file from template..."
qemu-img convert -f raw -O qcow2 "$OVMF_VARS_TEMPLATE" "$OVMF_VARS_LOCAL"
else
echo "Warning: OVMF VARS template not found at $OVMF_VARS_TEMPLATE"
# Fallback to creating an empty qcow2 if template is missing (not ideal but avoids crash)
qemu-img create -f qcow2 "$OVMF_VARS_LOCAL" 528K
fi
fi
echo "Starting Iridium VM with UEFI support..."
echo "ISO: $ISO_PATH"
echo "Disk: $DISK_PATH"
# QEMU Command with UEFI (OVMF) enabled
# We use format=qcow2 for pflash1 to allow snapshots (savevm)
qemu-system-x86_64 \
-enable-kvm \
-m 8G \
-smp 2 \
-cpu host \
-drive if=pflash,format=raw,readonly=on,file="$OVMF_CODE" \
-drive if=pflash,format=qcow2,file="$OVMF_VARS_LOCAL" \
-drive file="$DISK_PATH",format=qcow2,if=virtio \
-cdrom "$ISO_PATH" \
-boot once=d \
-netdev user,id=net0 \
-device virtio-net-pci,netdev=net0 \
-vga virtio \
-display gtk,gl=on \
-monitor unix:$HOME/.local/share/iridium-installer-vm/monitor.sock,server,nowait \
-name "Iridium Installer Test VM (UEFI)" \
-loadvm clean-state

19
take_snapshot.sh Executable file
View File

@@ -0,0 +1,19 @@
#!/bin/bash
SOCKET="$HOME/.local/share/iridium-installer-vm/monitor.sock"
SNAPSHOT_NAME="${1:-clean-state}"
if [ ! -S "$SOCKET" ]; then
echo "Error: QEMU monitor socket not found at $SOCKET"
echo "Is the VM running?"
exit 1
fi
echo "Taking snapshot: $SNAPSHOT_NAME"
echo "savevm $SNAPSHOT_NAME" | nc -U "$SOCKET"
if [ $? -eq 0 ]; then
echo "Snapshot command sent successfully."
else
echo "Failed to send snapshot command. Ensure 'nc' (netcat) with -U support is installed."
fi