unsloth/install.sh
Daniel Han 1a274c488e
Bump install.sh / install.ps1 pins to unsloth>=2026.7.2 and unsloth-zoo>=2026.7.2 (#6981)
PyPI release unsloth 2026.7.2 is now live. Bumps the pinned floor in
install.sh and install.ps1 from 2026.7.1 to 2026.7.2 for both unsloth and
unsloth-zoo across all 5 install commands (no-torch / reinstall / upgrade /
local / auto torch backend paths) so fresh installs resolve to the new wheel.

Follows the same pattern as #5716.
2026-07-08 07:51:53 -07:00

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#!/bin/sh
#
# Unsloth Studio Installer
#
# Usage: curl -fsSL https://unsloth.ai/install.sh | sh
# wget -qO- https://unsloth.ai/install.sh | sh
# ./install.sh --local (install from a cloned repo instead of PyPI)
#
# Piped installs take options as env vars after the pipe (a bare `| sh --no-torch`
# makes sh reject --no-torch as its own option). Flags still work via ./install.sh:
# curl -fsSL https://unsloth.ai/install.sh | UNSLOTH_NO_TORCH=1 sh # skip PyTorch (GGUF-only)
# curl -fsSL https://unsloth.ai/install.sh | UNSLOTH_PYTHON=3.12 sh # pin Python version
# curl -fsSL https://unsloth.ai/install.sh | UNSLOTH_STUDIO_HOME=/abs/path sh
# Equivalent flags: ./install.sh --no-torch --python 3.12 (or pipe them: sh -s -- --no-torch)
#
# Install dir priority: UNSLOTH_STUDIO_HOME > STUDIO_HOME (alias) > $HOME/.unsloth/studio
#
# SPDX-License-Identifier: AGPL-3.0-only
# Copyright 2026-present the Unsloth AI Inc. team. All rights reserved. See /studio/LICENSE.AGPL-3.0
set -e
# ── Output style (aligned with studio/setup.sh) ──
RULE=""
_rule_i=0
while [ "$_rule_i" -lt 52 ]; do
RULE="${RULE}"
_rule_i=$((_rule_i + 1))
done
if [ -n "${NO_COLOR:-}" ]; then
C_TITLE= C_DIM= C_OK= C_WARN= C_ERR= C_RST=
elif [ -t 1 ] || [ -n "${FORCE_COLOR:-}" ]; then
_ESC="$(printf '\033')"
C_TITLE="${_ESC}[38;5;150m"
C_DIM="${_ESC}[38;5;245m"
C_OK="${_ESC}[38;5;108m"
C_WARN="${_ESC}[38;5;136m"
C_ERR="${_ESC}[91m"
C_RST="${_ESC}[0m"
else
C_TITLE= C_DIM= C_OK= C_WARN= C_ERR= C_RST=
fi
step() { printf " ${C_DIM}%-15.15s${C_RST}${3:-$C_OK}%s${C_RST}\n" "$1" "$2"; }
substep() { printf " ${C_DIM}%-15s${2:-$C_DIM}%s${C_RST}\n" "" "$1"; }
# ── Parse flags ──
STUDIO_LOCAL_INSTALL=false
PACKAGE_NAME="unsloth"
TAURI_MODE=false
_USER_PYTHON=""
_NO_TORCH_FLAG=false
_VERBOSE=false
_SHORTCUTS_ONLY=false
_next_is_package=false
_next_is_python=false
_next_is_llama_cpp_dir=false
# Seed from the environment so a caller who exports UNSLOTH_LOCAL_LLAMA_CPP_DIR
# (the documented piped-install style) is honored; the --with-llama-cpp-dir
# flag below overrides it when given.
_WITH_LLAMA_CPP_DIR="${UNSLOTH_LOCAL_LLAMA_CPP_DIR:-}"
for arg in "$@"; do
if [ "$_next_is_package" = true ]; then
PACKAGE_NAME="$arg"
_next_is_package=false
continue
fi
if [ "$_next_is_python" = true ]; then
_USER_PYTHON="$arg"
_next_is_python=false
continue
fi
if [ "$_next_is_llama_cpp_dir" = true ]; then
_WITH_LLAMA_CPP_DIR="$arg"
_next_is_llama_cpp_dir=false
continue
fi
case "$arg" in
--local) STUDIO_LOCAL_INSTALL=true ;;
--package) _next_is_package=true ;;
--tauri) TAURI_MODE=true ;;
--python) _next_is_python=true ;;
--no-torch) _NO_TORCH_FLAG=true ;;
--verbose|-v) _VERBOSE=true ;;
--shortcuts-only) _SHORTCUTS_ONLY=true ;;
--with-llama-cpp-dir) _next_is_llama_cpp_dir=true ;;
esac
done
# Env-var equivalents for piped installs; an explicit flag still wins.
case "${UNSLOTH_NO_TORCH:-}" in 1|true|TRUE|yes|YES|on|ON) _NO_TORCH_FLAG=true ;; esac
[ -z "$_USER_PYTHON" ] && [ -n "${UNSLOTH_PYTHON:-}" ] && _USER_PYTHON="$UNSLOTH_PYTHON"
if [ "$_VERBOSE" = true ]; then
export UNSLOTH_VERBOSE=1
fi
# Custom Studio roots are not supported with --tauri (desktop app still
# resolves ~/.unsloth/studio). Pass through if the override == legacy default.
if [ "$TAURI_MODE" = true ]; then
_tauri_override_var=""
_tauri_override="${UNSLOTH_STUDIO_HOME:-}"
if [ -n "$_tauri_override" ]; then
_tauri_override_var="UNSLOTH_STUDIO_HOME"
else
_tauri_override="${STUDIO_HOME:-}"
[ -n "$_tauri_override" ] && _tauri_override_var="STUDIO_HOME"
fi
# Strip whitespace so " " is treated as unset (matches Python .strip()).
_tauri_override=$(printf '%s' "$_tauri_override" | sed -e 's/^[[:space:]]*//' -e 's/[[:space:]]*$//')
if [ -n "$_tauri_override" ]; then
case "$_tauri_override" in
"~") _tauri_override="$HOME" ;;
"~/"*) _tauri_override="$HOME/${_tauri_override#'~/'}" ;;
esac
# Canonicalize both sides (CDPATH=, -P) so a CDPATH-set env or
# symlinked $HOME doesn't break the legacy-equality comparison.
if [ -d "$_tauri_override" ]; then
_tauri_override_abs=$(CDPATH= cd -P -- "$_tauri_override" 2>/dev/null && pwd -P) \
|| _tauri_override_abs="$_tauri_override"
else
_tauri_override_abs="$_tauri_override"
fi
# Strip trailing separators so ".../studio/" matches ".../studio".
while [ "$_tauri_override_abs" != "/" ] \
&& [ "${_tauri_override_abs%/}" != "$_tauri_override_abs" ]; do
_tauri_override_abs=${_tauri_override_abs%/}
done
_tauri_legacy_root="$HOME/.unsloth/studio"
if [ -d "$_tauri_legacy_root" ]; then
_tauri_legacy_root=$(CDPATH= cd -P -- "$_tauri_legacy_root" 2>/dev/null && pwd -P) \
|| _tauri_legacy_root="$HOME/.unsloth/studio"
fi
while [ "$_tauri_legacy_root" != "/" ] \
&& [ "${_tauri_legacy_root%/}" != "$_tauri_legacy_root" ]; do
_tauri_legacy_root=${_tauri_legacy_root%/}
done
if [ "$_tauri_override_abs" != "$_tauri_legacy_root" ]; then
echo "ERROR: $_tauri_override_var is not supported with --tauri." >&2
echo " The desktop app still uses the legacy ~/.unsloth/studio root." >&2
echo " Run install.sh without --tauri for custom-root shell installs," >&2
echo " or unset the env var for default desktop installs." >&2
exit 1
fi
fi
fi
_is_verbose() {
[ "${UNSLOTH_VERBOSE:-0}" = "1" ]
}
run_maybe_quiet() {
if _is_verbose; then
"$@"
else
"$@" > /dev/null 2>&1
fi
}
run_install_cmd() {
_label="$1"
shift
if _is_verbose; then
"$@" && return 0
_rc=$?
step "error" "$_label failed (exit code $_rc)" "$C_ERR" >&2
return "$_rc"
fi
_log=$(mktemp)
"$@" >"$_log" 2>&1 && { rm -f "$_log"; return 0; }
_rc=$?
step "error" "$_label failed (exit code $_rc)" "$C_ERR" >&2
cat "$_log" >&2
rm -f "$_log"
return $_rc
}
# Retry run_install_cmd on transient uv download failures with backoff. Returns
# the last exit code on permanent failure so the set -e rollback trap still fires.
: "${UNSLOTH_INSTALL_RETRIES:=3}"
: "${UNSLOTH_INSTALL_RETRY_DELAY:=3}"
run_install_cmd_retry() {
_ricr_label="$1"
# Sanitize overrides to a default of 3 (a typo must not disable retries; =1 disables).
# Length guard precedes the numeric test so a huge value can't overflow `[ -ge ]`.
# 0?* rejects leading-zero delays ("08"/"09" break the later $((delay*2)) as octal);
# bare "0" stays valid. Bounds: 1..100 retries, 0..3600s base delay.
case "$UNSLOTH_INSTALL_RETRIES" in
''|*[!0-9]*|0) _ricr_max=3 ;;
*) if [ "${#UNSLOTH_INSTALL_RETRIES}" -le 3 ] && [ "$UNSLOTH_INSTALL_RETRIES" -ge 1 ] 2>/dev/null && [ "$UNSLOTH_INSTALL_RETRIES" -le 100 ] 2>/dev/null; then _ricr_max=$UNSLOTH_INSTALL_RETRIES; else _ricr_max=3; fi ;;
esac
case "$UNSLOTH_INSTALL_RETRY_DELAY" in
''|*[!0-9]*|0?*) _ricr_delay=3 ;;
*) if [ "${#UNSLOTH_INSTALL_RETRY_DELAY}" -le 4 ] && [ "$UNSLOTH_INSTALL_RETRY_DELAY" -ge 0 ] 2>/dev/null && [ "$UNSLOTH_INSTALL_RETRY_DELAY" -le 3600 ] 2>/dev/null; then _ricr_delay=$UNSLOTH_INSTALL_RETRY_DELAY; else _ricr_delay=3; fi ;;
esac
_ricr_attempt=1
while :; do
# AND-OR (not `if`) preserves the real failure code: $? after a non-taken
# `if` is 0 in sh/dash/bash, which would break the rollback path.
run_install_cmd "$@" && return 0
_ricr_rc=$?
if [ "$_ricr_attempt" -ge "$_ricr_max" ]; then
return "$_ricr_rc"
fi
substep "retrying \"$_ricr_label\" after transient failure (attempt $((_ricr_attempt + 1))/$_ricr_max, waiting ${_ricr_delay}s)..." "$C_WARN"
sleep "$_ricr_delay" || true
_ricr_attempt=$((_ricr_attempt + 1))
_ricr_delay=$((_ricr_delay * 2))
done
}
# Install bitsandbytes on AMD ROCm hosts. Uses the continuous-release_main
# wheel for the ROCm 4-bit GEMV fix (bnb PR #1887, post-0.49.2); bnb <= 0.49.2
# NaNs at decode shape on every AMD GPU. Falls back to PyPI >=0.49.1 if the
# pre-release URL is unreachable. Drop the pin once bnb 0.50+ ships on PyPI.
_install_bnb_rocm() {
_label="$1"
_venv_py="$2"
case "$_ARCH" in
x86_64|amd64)
_bnb_whl_url="https://github.com/bitsandbytes-foundation/bitsandbytes/releases/download/continuous-release_main/bitsandbytes-1.33.7.preview-py3-none-manylinux_2_24_x86_64.whl"
;;
aarch64|arm64)
_bnb_whl_url="https://github.com/bitsandbytes-foundation/bitsandbytes/releases/download/continuous-release_main/bitsandbytes-1.33.7.preview-py3-none-manylinux_2_24_aarch64.whl"
;;
*)
_bnb_whl_url=""
;;
esac
# uv rejects the continuous-release_main bitsandbytes wheel because the
# filename version (1.33.7rc0) does not match the embedded metadata version
# (0.50.0.dev0). pip accepts the mismatch, so bootstrap pip and use it.
if ! "$_venv_py" -m pip --version >/dev/null 2>&1; then
if ! run_maybe_quiet "$_venv_py" -m ensurepip --upgrade; then
run_maybe_quiet uv pip install --python "$_venv_py" pip || \
substep "[WARN] could not bootstrap pip; bitsandbytes install will likely fail" "$C_WARN"
fi
fi
if [ -n "$_bnb_whl_url" ]; then
substep "installing bitsandbytes for AMD ROCm (pre-release, PR #1887)..."
_bnb_log=$(mktemp)
if "$_venv_py" -m pip install \
--disable-pip-version-check \
--force-reinstall --no-cache-dir --no-deps \
--retries 8 --timeout 90 \
"$_bnb_whl_url" >"$_bnb_log" 2>&1; then
rm -f "$_bnb_log"
return 0
fi
_bnb_rc=$?
if _is_verbose; then
cat "$_bnb_log" >&2
fi
rm -f "$_bnb_log"
step "warning" "$_label (pre-release) failed (exit code $_bnb_rc)" "$C_WARN" >&2
substep "[WARN] bnb pre-release install failed; falling back to PyPI (4-bit decode broken on ROCm)" "$C_WARN"
fi
run_install_cmd "$_label (pypi fallback)" "$_venv_py" -m pip install \
--force-reinstall --no-cache-dir --no-deps "bitsandbytes>=0.49.1"
}
if [ "$_next_is_package" = true ]; then
echo "❌ ERROR: --package requires an argument." >&2
exit 1
fi
if [ "$_next_is_python" = true ]; then
echo "❌ ERROR: --python requires a version argument (e.g. --python 3.12)." >&2
exit 1
fi
if [ "$_next_is_llama_cpp_dir" = true ]; then
echo "❌ ERROR: --with-llama-cpp-dir requires a path argument." >&2
exit 1
fi
# Validate --package to prevent injection into shell/Python commands.
# Must start with a letter/digit (rejects leading dashes that uv would parse as flags).
case "$PACKAGE_NAME" in
[!a-zA-Z0-9]*)
echo "❌ ERROR: --package name must start with a letter or digit." >&2
exit 1 ;;
*[!a-zA-Z0-9._-]*)
echo "❌ ERROR: --package name contains invalid characters (allowed: a-z A-Z 0-9 . _ -)" >&2
exit 1 ;;
esac
# ── Tauri structured output ──
tauri_log() {
if [ "$TAURI_MODE" = true ]; then
echo "[TAURI:$1] $2"
fi
}
tauri_diag_marker() {
_diag_gpu_branch="${1:-unknown}"
_diag_torch_index_family="${2:-none}"
tauri_log "DIAG" "diag_schema=1 platform=${OS:-unknown} arch=${_ARCH:-unknown} python_version=${PYTHON_VERSION:-unknown} skip_torch=${SKIP_TORCH:-false} mac_intel=${MAC_INTEL:-false} gpu_branch=${_diag_gpu_branch} torch_index_family=${_diag_torch_index_family}"
}
_tauri_torch_index_family() {
if [ "${SKIP_TORCH:-false}" = true ]; then
echo "none"
return
fi
_diag_url="${1:-}"
case "$_diag_url" in
*/cu118) echo "cu118" ;;
*/cu124) echo "cu124" ;;
*/cu126) echo "cu126" ;;
*/cu128) echo "cu128" ;;
*/cu130) echo "cu130" ;;
*/cpu) echo "cpu" ;;
*/rocm[0-9]*.[0-9]*)
_diag_family=${_diag_url##*/}
case "$_diag_family" in
rocm[0-9]*.[0-9]*) echo "$_diag_family" ;;
*) echo "auto" ;;
esac ;;
# AMD arch-specific index (e.g. repo.amd.com/rocm/whl/gfx1151/) --
# used for Strix Halo/Point where torch 2.11+rocm7.13 has the real fix.
*repo.amd.com/rocm/whl/gfx*|*rocm/whl/gfx*) echo "rocm7.13" ;;
"") echo "none" ;;
*) echo "auto" ;;
esac
}
_tauri_gpu_branch() {
_diag_family="${1:-unknown}"
_diag_radeon="${2:-false}"
if [ "${SKIP_TORCH:-false}" = true ]; then
echo "no_torch"
return
fi
if [ "${OS:-}" = "macos" ]; then
echo "mac"
return
fi
case "$_diag_family" in
cu*) echo "cuda" ;;
rocm*)
if [ "$_diag_radeon" = true ]; then
echo "rocm_radeon"
else
echo "rocm"
fi ;;
radeon) echo "rocm_radeon" ;;
cpu) echo "cpu" ;;
none) echo "no_torch" ;;
*) echo "unknown" ;;
esac
}
PYTHON_VERSION="" # resolved after platform detection
# Resolve install destinations: env override, HOME-redirect (best-effort
# via getent/dscl), or default. Env-var priority: UNSLOTH_STUDIO_HOME wins
# over STUDIO_HOME (the more specific signal beats the generic alias).
_resolve_studio_destinations() {
_override_var=""
_override="${UNSLOTH_STUDIO_HOME:-}"
if [ -n "$_override" ]; then
_override_var="UNSLOTH_STUDIO_HOME"
else
_override="${STUDIO_HOME:-}"
[ -n "$_override" ] && _override_var="STUDIO_HOME"
fi
# Strip surrounding whitespace so " " is treated as unset (matches the
# Python resolvers' .strip()), preventing install/runtime layout drift.
_override=$(printf '%s' "$_override" | sed -e 's/^[[:space:]]*//' -e 's/[[:space:]]*$//')
# Tilde expansion: env vars are not subject to it when quoted on assignment.
case "$_override" in
"~") _override="$HOME" ;;
"~/"*) _override="$HOME/${_override#'~/'}" ;;
esac
if [ -n "$_override" ]; then
mkdir -p -- "$_override" 2>/dev/null || { echo "ERROR: $_override_var=$_override cannot be created." >&2; exit 1; }
[ -w "$_override" ] || { echo "ERROR: $_override_var=$_override is not writable." >&2; exit 1; }
STUDIO_HOME="$(CDPATH= cd -P -- "$_override" && pwd -P)" || exit 1
DATA_DIR="$STUDIO_HOME/share"
_LOCAL_BIN="$STUDIO_HOME/bin"
_STUDIO_HOME_REDIRECT=env
substep "custom $_override_var=$STUDIO_HOME"
return 0
fi
_default_home=""
if command -v getent >/dev/null 2>&1; then
_default_home=$(getent passwd "${USER:-$(whoami)}" 2>/dev/null | cut -d: -f6)
elif [ "$(uname)" = "Darwin" ] && command -v dscl >/dev/null 2>&1; then
_default_home=$(dscl . -read "/Users/${USER:-$(whoami)}" NFSHomeDirectory 2>/dev/null | awk '{print $2}')
fi
# Canonicalize both sides so a trailing slash on $HOME (or symlink mismatch
# with passwd-DB output) doesn't misfire the redirection branch.
_home_canon="$HOME"
if [ -d "$_home_canon" ]; then
_home_canon=$(CDPATH= cd -P -- "$_home_canon" 2>/dev/null && pwd -P) || _home_canon="$HOME"
fi
_default_home_canon="$_default_home"
if [ -n "$_default_home_canon" ] && [ -d "$_default_home_canon" ]; then
_default_home_canon=$(CDPATH= cd -P -- "$_default_home_canon" 2>/dev/null && pwd -P) || _default_home_canon="$_default_home"
fi
if [ -n "$_default_home_canon" ] && [ "$_home_canon" != "$_default_home_canon" ]; then
STUDIO_HOME="$HOME/.unsloth/studio"
DATA_DIR="$HOME/.local/share/unsloth"
_LOCAL_BIN="$HOME/.local/bin"
_STUDIO_HOME_REDIRECT=home
substep "HOME redirected ($HOME); install follows \$HOME"
return 0
fi
STUDIO_HOME="$HOME/.unsloth/studio"
DATA_DIR="$HOME/.local/share/unsloth"
_LOCAL_BIN="$HOME/.local/bin"
_STUDIO_HOME_REDIRECT=default
}
_resolve_studio_destinations
VENV_DIR="$STUDIO_HOME/unsloth_studio"
_VENV_ROLLBACK_DIR=""
_VENV_ROLLBACK_TARGET="$VENV_DIR"
_VENV_ROLLBACK_ACTIVE=false
_start_studio_venv_replacement() {
_existing_dir="$1"
_stamp=$(date +%Y%m%d%H%M%S 2>/dev/null || echo "time")
_candidate="$STUDIO_HOME/unsloth_studio.rollback.$_stamp.$$"
_suffix=0
while [ -e "$_candidate" ]; do
_suffix=$((_suffix + 1))
_candidate="$STUDIO_HOME/unsloth_studio.rollback.$_stamp.$$.$_suffix"
done
mv "$_existing_dir" "$_candidate"
_VENV_ROLLBACK_DIR="$_candidate"
_VENV_ROLLBACK_TARGET="$_existing_dir"
_VENV_ROLLBACK_ACTIVE=true
substep "previous environment preserved for rollback"
}
_restore_studio_venv_replacement() {
[ "$_VENV_ROLLBACK_ACTIVE" = true ] || return 0
[ -n "$_VENV_ROLLBACK_DIR" ] && [ -d "$_VENV_ROLLBACK_DIR" ] || {
_VENV_ROLLBACK_ACTIVE=false
return 0
}
substep "restoring previous environment after failed install..." "$C_WARN"
rm -rf "$_VENV_ROLLBACK_TARGET"
if mv "$_VENV_ROLLBACK_DIR" "$_VENV_ROLLBACK_TARGET"; then
substep "restored previous environment"
_VENV_ROLLBACK_ACTIVE=false
_VENV_ROLLBACK_DIR=""
else
echo "⚠️ Could not restore previous environment from $_VENV_ROLLBACK_DIR to $_VENV_ROLLBACK_TARGET" >&2
fi
}
_commit_studio_venv_replacement() {
[ "$_VENV_ROLLBACK_ACTIVE" = true ] || return 0
if [ -n "$_VENV_ROLLBACK_DIR" ] && [ -d "$_VENV_ROLLBACK_DIR" ]; then
rm -rf "$_VENV_ROLLBACK_DIR" || true
fi
_VENV_ROLLBACK_ACTIVE=false
_VENV_ROLLBACK_DIR=""
}
_on_install_exit() {
_status=$?
if [ "$_status" -ne 0 ]; then
_restore_studio_venv_replacement
fi
[ -n "${_UV_OVERRIDE_TMPDIR:-}" ] && rm -rf "$_UV_OVERRIDE_TMPDIR" 2>/dev/null || true
exit "$_status"
}
# Empty so an inherited value can never reach the trap's rm; only a temp dir
# this script creates below (Apple Silicon, spaced path) is ever removed.
_UV_OVERRIDE_TMPDIR=""
trap _on_install_exit EXIT
# ── Helper: download a URL to a file (supports curl and wget) ──
download() {
if command -v curl >/dev/null 2>&1; then
curl -LsSf "$1" -o "$2"
elif command -v wget >/dev/null 2>&1; then
wget -qO "$2" "$1"
else
echo "Error: neither curl nor wget found. Install one and re-run."
exit 1
fi
}
# ── Helper: check if a single package is available on the system ──
_is_pkg_installed() {
case "$1" in
build-essential) command -v gcc >/dev/null 2>&1 ;;
libcurl4-openssl-dev)
command -v dpkg >/dev/null 2>&1 && dpkg -s "$1" >/dev/null 2>&1 ;;
pciutils)
command -v lspci >/dev/null 2>&1 ;;
*) command -v "$1" >/dev/null 2>&1 ;;
esac
}
# ── Helper: install packages via apt, escalating to sudo only if needed ──
# Usage: _smart_apt_install pkg1 pkg2 pkg3 ...
_smart_apt_install() {
_PKGS="$*"
# Step 1: Try installing without sudo (works when already root)
apt-get update -y </dev/null >/dev/null 2>&1 || true
apt-get install -y $_PKGS </dev/null >/dev/null 2>&1 || true
# Step 2: Check which packages are still missing
_STILL_MISSING=""
for _pkg in $_PKGS; do
if ! _is_pkg_installed "$_pkg"; then
_STILL_MISSING="$_STILL_MISSING $_pkg"
fi
done
_STILL_MISSING=$(echo "$_STILL_MISSING" | sed 's/^ *//')
if [ -z "$_STILL_MISSING" ]; then
return 0
fi
# In Tauri mode, report needed packages and exit — Rust handles elevation
if [ "$TAURI_MODE" = true ]; then
tauri_log "NEED_SUDO" "$_STILL_MISSING"
exit 2
fi
# Step 3: Escalate -- need elevated permissions for remaining packages
if command -v sudo >/dev/null 2>&1; then
echo ""
echo " !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!"
echo " WARNING: We require sudo elevated permissions to install:"
echo " $_STILL_MISSING"
echo " If you accept, we'll run sudo now, and it'll prompt your password."
echo " !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!"
echo ""
printf " Accept? [Y/n] "
if [ -r /dev/tty ]; then
read -r REPLY </dev/tty || REPLY="y"
else
REPLY="y"
fi
case "$REPLY" in
[nN]*)
echo ""
echo " Please install these packages first, then re-run Unsloth Studio setup:"
echo " sudo apt-get update -y && sudo apt-get install -y $_STILL_MISSING"
exit 1
;;
*)
sudo apt-get update -y </dev/null
sudo apt-get install -y $_STILL_MISSING </dev/null
;;
esac
else
echo ""
echo " sudo is not available on this system."
echo " Please install these packages as root, then re-run Unsloth Studio setup:"
echo " apt-get update -y && apt-get install -y $_STILL_MISSING"
exit 1
fi
}
# ── Helper: create desktop shortcuts and launcher script ──
# Usage: create_studio_shortcuts <unsloth_exe> <os>
# Creates ~/.local/share/unsloth/launch-studio.sh (shared launcher),
# plus platform-specific shortcuts (Linux .desktop / macOS .app bundle /
# WSL Windows Desktop+Start Menu .lnk).
create_studio_shortcuts() {
_css_exe="$1"
_css_os="$2"
# Validate exe
if [ ! -x "$_css_exe" ]; then
echo "[WARN] Cannot create shortcuts: unsloth not found at $_css_exe"
return 0
fi
# Resolve absolute path
_css_exe_dir=$(cd "$(dirname "$_css_exe")" && pwd)
_css_exe="$_css_exe_dir/$(basename "$_css_exe")"
_css_data_dir="$DATA_DIR"
_css_launcher="$_css_data_dir/launch-studio.sh"
_css_icon_png="$_css_data_dir/unsloth-studio.png"
_css_gem_png="$_css_data_dir/unsloth-gem.png"
mkdir -p "$_css_data_dir"
# Same-install discriminator: per-install opaque id written once at install
# time and read by both this launcher and the backend (/api/health). Replaces
# the older sha256(canonical $STUDIO_HOME) scheme to (a) avoid leaking the
# install path on -H 0.0.0.0 deployments and (b) sidestep launcher/backend
# canonicalization drift (cd -P vs Path.resolve() symlink/junction handling).
# Lives at $STUDIO_HOME/share/ (not $DATA_DIR) so the backend can find it
# via _STUDIO_ROOT_RESOLVED / "share" / "studio_install_id" regardless of
# mode (in env-mode $STUDIO_HOME/share == $DATA_DIR; in default mode they
# diverge but the backend only knows the studio_root). 32 bytes of urandom
# -> 64 hex chars, byte-compatible with the prior digest so launcher
# placeholder, _check_health, and tests stay length-agnostic.
_css_id_dir="$STUDIO_HOME/share"
mkdir -p "$_css_id_dir"
_css_id_file="$_css_id_dir/studio_install_id"
if [ ! -s "$_css_id_file" ]; then
if [ -r /dev/urandom ]; then
_css_new_id=$(od -An -N32 -tx1 /dev/urandom 2>/dev/null | tr -d ' \n')
fi
if [ -z "${_css_new_id:-}" ] && command -v python3 >/dev/null 2>&1; then
_css_new_id=$(python3 -c 'import secrets; print(secrets.token_hex(32))' 2>/dev/null)
fi
if [ -z "${_css_new_id:-}" ]; then
echo "[WARN] Cannot create launcher: no entropy source for studio_install_id" >&2
return 1
fi
# Atomic write so a partial install can't leave a half-written id.
_css_id_tmp="$_css_id_file.$$.tmp"
printf '%s' "$_css_new_id" > "$_css_id_tmp" \
&& mv "$_css_id_tmp" "$_css_id_file"
chmod 600 "$_css_id_file" 2>/dev/null || true
unset _css_new_id _css_id_tmp
fi
_css_studio_root_id=$(cat "$_css_id_file" 2>/dev/null)
if [ -z "$_css_studio_root_id" ]; then
echo "[WARN] Cannot create launcher: failed to read $_css_id_file" >&2
return 1
fi
_css_is_env_mode=false
[ "$_STUDIO_HOME_REDIRECT" = "env" ] && _css_is_env_mode=true
# ── Write launcher script ──
# Single-quoted heredoc; @@DATA_DIR@@, @@STUDIO_ROOT_ID@@, and
# @@INSTALLED_IS_ENV_MODE@@ are substituted via sed below.
cat > "$_css_launcher" << 'LAUNCHER_EOF'
#!/usr/bin/env bash
# Unsloth Studio Launcher
# Auto-generated by install.sh -- do not edit manually.
set -euo pipefail
DATA_DIR='@@DATA_DIR@@'
_EXPECTED_STUDIO_ROOT_ID='@@STUDIO_ROOT_ID@@'
_INSTALLED_IS_ENV_MODE='@@INSTALLED_IS_ENV_MODE@@'
# Read exe path from config written at install time.
# Sourcing is safe: the config file is written by install.sh, not user input.
if [ -f "$DATA_DIR/studio.conf" ]; then
. "$DATA_DIR/studio.conf"
fi
if [ -z "${UNSLOTH_EXE:-}" ] || [ ! -x "${UNSLOTH_EXE:-}" ]; then
echo "Error: UNSLOTH_EXE not set or not executable. Re-run the installer." >&2
exit 1
fi
BASE_PORT=8888
MAX_PORT_OFFSET=20
TIMEOUT_SEC=60
POLL_INTERVAL_SEC=0.25
LOG_FILE="$DATA_DIR/studio.log"
# why: in env-override mode multiple installs share an OS user; namespace the
# lock and remember our own healthy port so we never attach to an unrelated
# Studio listening on the global 8888..8908 range.
LOCK_DIR="${XDG_RUNTIME_DIR:-/tmp}/unsloth-studio-launcher-$(id -u).lock"
PORT_FILE=""
# why: gate on the install-time mode (baked above) instead of the runtime env
# var; sourcing a custom-root studio.conf in shell must not flip a default-mode
# launcher into env-mode behavior with stale state.
if [ "$_INSTALLED_IS_ENV_MODE" = "true" ]; then
if command -v cksum >/dev/null 2>&1; then
_LOCK_KEY=$(printf '%s' "$DATA_DIR" | cksum | awk '{print $1}')
else
_LOCK_KEY=""
fi
[ -n "$_LOCK_KEY" ] && LOCK_DIR="${XDG_RUNTIME_DIR:-/tmp}/unsloth-studio-launcher-$(id -u)-${_LOCK_KEY}.lock"
PORT_FILE="$DATA_DIR/studio.port"
fi
# ── HTTP GET helper (supports curl and wget) ──
_http_get() {
_url="$1"
if command -v curl >/dev/null 2>&1; then
curl -fsS --max-time 1 "$_url" 2>/dev/null
elif command -v wget >/dev/null 2>&1; then
wget -qO- --timeout=1 "$_url" 2>/dev/null
else
return 1
fi
}
# ── Health check ──
_check_health() {
_port=$1
_resp=$(_http_get "http://127.0.0.1:$_port/api/health") || return 1
case "$_resp" in
*'"status"'*'"healthy"'*'"service"'*'"Unsloth UI Backend"'*) ;;
*'"service"'*'"Unsloth UI Backend"'*'"status"'*'"healthy"'*) ;;
*) return 1 ;;
esac
# why: verify the backend belongs to THIS install. Baked hex digest avoids
# JSON-escape mismatches on paths with `\`/`"` and avoids leaking the raw
# install path to unauthenticated callers.
if [ -n "$_EXPECTED_STUDIO_ROOT_ID" ]; then
case "$_resp" in
*"\"studio_root_id\":\"$_EXPECTED_STUDIO_ROOT_ID\""*|*"\"studio_root_id\": \"$_EXPECTED_STUDIO_ROOT_ID\""*) return 0 ;;
*) return 1 ;;
esac
fi
return 0
}
# ── Port scanning ──
_candidate_ports() {
echo "$BASE_PORT"
_max_port=$((BASE_PORT + MAX_PORT_OFFSET))
if command -v ss >/dev/null 2>&1; then
ss -tlnH 2>/dev/null | awk '{print $4}' | grep -oE '[0-9]+$' | \
awk -v lo="$BASE_PORT" -v hi="$_max_port" '$1 >= lo && $1 <= hi && $1 != lo {print}' || true
elif command -v lsof >/dev/null 2>&1; then
lsof -iTCP -sTCP:LISTEN -nP 2>/dev/null | awk '{print $9}' | grep -oE '[0-9]+$' | \
awk -v lo="$BASE_PORT" -v hi="$_max_port" '$1 >= lo && $1 <= hi && $1 != lo {print}' || true
else
_offset=1
while [ "$_offset" -le "$MAX_PORT_OFFSET" ]; do
echo $((BASE_PORT + _offset))
_offset=$((_offset + 1))
done
fi
}
_find_healthy_port() {
if [ -n "$PORT_FILE" ] && [ -f "$PORT_FILE" ]; then
# why: env-mode installs only attach to a port we previously launched
# ourselves; never to a sibling Studio that happens to be healthy.
_p=$(cat "$PORT_FILE" 2>/dev/null || true)
case "$_p" in
''|*[!0-9]*) ;;
*)
if _check_health "$_p"; then
echo "$_p"
return 0
fi
rm -f "$PORT_FILE"
;;
esac
return 1
fi
if [ -n "$PORT_FILE" ]; then
return 1
fi
for _p in $(_candidate_ports | sort -un); do
if _check_health "$_p"; then
echo "$_p"
return 0
fi
done
return 1
}
# ── Check if a port is busy ──
_is_port_busy() {
_port=$1
if command -v ss >/dev/null 2>&1; then
ss -tlnH 2>/dev/null | awk '{print $4}' | grep -qE "[.:]$_port$"
elif command -v lsof >/dev/null 2>&1; then
lsof -iTCP:"$_port" -sTCP:LISTEN -nP >/dev/null 2>&1
else
return 1
fi
}
# ── Find a free port in range ──
_find_launch_port() {
_offset=0
while [ "$_offset" -le "$MAX_PORT_OFFSET" ]; do
_candidate=$((BASE_PORT + _offset))
if ! _is_port_busy "$_candidate"; then
echo "$_candidate"
return 0
fi
_offset=$((_offset + 1))
done
return 1
}
# ── Open browser ──
_open_browser() {
_url="$1"
if [ "$(uname)" = "Darwin" ] && command -v open >/dev/null 2>&1; then
open "$_url"
elif grep -qi microsoft /proc/version 2>/dev/null; then
# WSL: xdg-open is unreliable; use Windows browser via PowerShell or cmd
if command -v powershell.exe >/dev/null 2>&1; then
powershell.exe -NoProfile -Command "Start-Process '$_url'" >/dev/null 2>&1 &
elif command -v cmd.exe >/dev/null 2>&1; then
cmd.exe /c start "" "$_url" >/dev/null 2>&1 &
elif command -v xdg-open >/dev/null 2>&1; then
xdg-open "$_url" >/dev/null 2>&1 &
else
echo "Open in your browser: $_url" >&2
fi
elif command -v xdg-open >/dev/null 2>&1; then
xdg-open "$_url" >/dev/null 2>&1 &
else
echo "Open in your browser: $_url" >&2
fi
}
# ── Spawn terminal with studio command ──
_spawn_terminal() {
_cmd="$1"
_os=$(uname)
if [ "$_os" = "Darwin" ]; then
# AppleEvents are TCC-denied from unsigned .app bundles; spawn
# Terminal via a .command file + Launch Services instead. Server
# is nohup'd so warm relaunches hit the fast-path; watcher + trap
# in the .command couple Terminal close <-> server shutdown.
# `exec` keeps the recorded PID equal to the studio process so
# signals reach studio directly rather than a wrapper shell.
nohup sh -c "exec $_cmd" >> "$LOG_FILE" 2>&1 &
_server_pid=$!
_pid_file="$DATA_DIR/studio-$_launch_port.pid"
printf '%d\n' "$_server_pid" > "$_pid_file" 2>/dev/null || true
_cmd_file="$DATA_DIR/launch-terminal.command"
_logfile_q=$(printf '%s' "$LOG_FILE" | sed "s/'/'\\\\''/g")
_pidfile_q=$(printf '%s' "$_pid_file" | sed "s/'/'\\\\''/g")
if {
{
printf '#!/bin/bash\n'
printf "SERVER_PID=%s\n" "$_server_pid"
printf "PID_FILE='%s'\n" "$_pidfile_q"
# Wait up to 12s for graceful shutdown before SIGKILL.
printf 'shutdown_studio() {\n'
printf ' kill -TERM "$SERVER_PID" 2>/dev/null\n'
printf ' _i=0\n'
printf ' while kill -0 "$SERVER_PID" 2>/dev/null && [ "$_i" -lt 24 ]; do\n'
printf ' sleep 0.5\n'
printf ' _i=$((_i + 1))\n'
printf ' done\n'
printf ' kill -0 "$SERVER_PID" 2>/dev/null && kill -KILL "$SERVER_PID" 2>/dev/null\n'
printf ' rm -f "$PID_FILE" 2>/dev/null\n'
printf '}\n'
printf "tail -n 100 -F '%s' &\n" "$_logfile_q"
printf 'TAIL_PID=$!\n'
# Server gone -> kill tail so bash exits cleanly.
printf '(\n'
printf ' while kill -0 "$SERVER_PID" 2>/dev/null; do sleep 1; done\n'
printf ' kill "$TAIL_PID" 2>/dev/null\n'
printf ') &\n'
printf 'WATCHER_PID=$!\n'
printf "trap 'shutdown_studio; kill \"\$WATCHER_PID\" \"\$TAIL_PID\" 2>/dev/null; exit' HUP INT TERM\n"
printf "trap 'rm -f \"\$PID_FILE\" 2>/dev/null' EXIT\n"
printf 'wait "$TAIL_PID" 2>/dev/null\n'
} > "$_cmd_file" 2>/dev/null \
&& chmod +x "$_cmd_file" 2>/dev/null \
&& open -a Terminal "$_cmd_file" 2>/dev/null
}; then
# Foreground Terminal (Launch Services spawns us backgrounded).
osascript -e 'tell application "Terminal" to activate' >/dev/null 2>&1 || true
return 0
fi
# .command/open failed: kill orphan, fall through to generic fallback.
kill -TERM "$_server_pid" 2>/dev/null || true
_i=0
while kill -0 "$_server_pid" 2>/dev/null && [ "$_i" -lt 6 ]; do
sleep 0.5
_i=$((_i + 1))
done
kill -0 "$_server_pid" 2>/dev/null && kill -KILL "$_server_pid" 2>/dev/null || true
rm -f "$_pid_file" 2>/dev/null || true
echo "[WARN] Could not open Terminal; falling back to background launch" >&2
else
for _term in gnome-terminal konsole xfce4-terminal mate-terminal lxterminal xterm; do
if command -v "$_term" >/dev/null 2>&1; then
case "$_term" in
gnome-terminal) "$_term" -- sh -c "$_cmd" & return 0 ;;
konsole) "$_term" -e sh -c "$_cmd" & return 0 ;;
xterm) "$_term" -e sh -c "$_cmd" & return 0 ;;
*) "$_term" -e sh -c "$_cmd" & return 0 ;;
esac
fi
done
fi
# Fallback: background with log
echo "No terminal emulator found; running in background. Logs: $LOG_FILE" >&2
nohup sh -c "$_cmd" >> "$LOG_FILE" 2>&1 &
return 0
}
# ── Atomic directory-based single-instance guard ──
_acquire_lock() {
if mkdir "$LOCK_DIR" 2>/dev/null; then
echo "$$" > "$LOCK_DIR/pid"
return 0
fi
# Lock dir exists -- check if owner is still alive
_old_pid=$(cat "$LOCK_DIR/pid" 2>/dev/null || true)
if [ -n "$_old_pid" ] && kill -0 "$_old_pid" 2>/dev/null; then
# Another launcher is running; wait for it to bring Studio up
_deadline=$(($(date +%s) + TIMEOUT_SEC))
while [ "$(date +%s)" -lt "$_deadline" ]; do
_port=$(_find_healthy_port) && {
_open_browser "http://localhost:$_port"
exit 0
}
sleep "$POLL_INTERVAL_SEC"
done
echo "Timed out waiting for other launcher (PID $_old_pid)" >&2
exit 0
fi
# Stale lock -- reclaim
rm -rf "$LOCK_DIR"
mkdir "$LOCK_DIR" 2>/dev/null || return 1
echo "$$" > "$LOCK_DIR/pid"
}
_release_lock() {
[ -d "$LOCK_DIR" ] || return 0
[ "$(cat "$LOCK_DIR/pid" 2>/dev/null)" = "$$" ] || return 0
rm -rf "$LOCK_DIR"
}
# ── Main ──
# Fast path: already healthy
_port=$(_find_healthy_port) && {
_open_browser "http://localhost:$_port"
exit 0
}
_acquire_lock
trap '_release_lock' EXIT INT TERM
# Post-lock re-check (handles race with another launcher)
_port=$(_find_healthy_port) && {
_open_browser "http://localhost:$_port"
exit 0
}
# Find a free port in range
_launch_port=$(_find_launch_port) || {
echo "No free port found in range ${BASE_PORT}-$((BASE_PORT + MAX_PORT_OFFSET))" >&2
exit 1
}
if [ -t 1 ]; then
# ── Foreground mode (TTY available) ──
# Background subshell: wait for studio to become healthy, release the
# single-instance lock, then open the browser. The lock stays held until
# health is confirmed so a second launcher cannot race during startup.
(
_obwr_deadline=$(($(date +%s) + TIMEOUT_SEC))
while [ "$(date +%s)" -lt "$_obwr_deadline" ]; do
if _check_health "$_launch_port"; then
[ -n "$PORT_FILE" ] && printf '%s\n' "$_launch_port" > "$PORT_FILE" 2>/dev/null || true
_release_lock
_open_browser "http://localhost:$_launch_port"
exit 0
fi
sleep "$POLL_INTERVAL_SEC"
done
# Timed out -- release the lock anyway so future launches are not blocked
_release_lock
) &
# Clear traps so exec does not trigger _release_lock (the subshell owns it)
trap - EXIT INT TERM
exec "$UNSLOTH_EXE" studio -p "$_launch_port"
else
# ── Background mode (no TTY) ──
# Used by macOS .app and headless invocations.
_launch_cmd=$(printf '%q ' "$UNSLOTH_EXE" studio -p "$_launch_port")
_launch_cmd=${_launch_cmd% }
_spawn_terminal "$_launch_cmd"
# Poll for health on the specific port we launched on
_deadline=$(($(date +%s) + TIMEOUT_SEC))
while [ "$(date +%s)" -lt "$_deadline" ]; do
if _check_health "$_launch_port"; then
[ -n "$PORT_FILE" ] && printf '%s\n' "$_launch_port" > "$PORT_FILE" 2>/dev/null || true
_open_browser "http://localhost:$_launch_port"
exit 0
fi
sleep "$POLL_INTERVAL_SEC"
done
echo "Unsloth Studio did not become healthy within ${TIMEOUT_SEC}s." >&2
echo "Check logs at: $LOG_FILE" >&2
exit 1
fi
LAUNCHER_EOF
# why: bake non-user-controlled placeholders FIRST so a literal
# `@@STUDIO_ROOT_ID@@` inside $DATA_DIR cannot be rewritten below.
sed -e "s|@@STUDIO_ROOT_ID@@|$_css_studio_root_id|g" \
-e "s|@@INSTALLED_IS_ENV_MODE@@|$_css_is_env_mode|g" \
"$_css_launcher" > "$_css_launcher.tmp" \
&& mv "$_css_launcher.tmp" "$_css_launcher"
# Env-mode bakes an absolute DATA_DIR (root fixed at install time);
# default / HOME-redirect keeps the literal $HOME/.local/share/unsloth
# so behavior is byte-identical to pre-override.
if [ "$_STUDIO_HOME_REDIRECT" = "env" ]; then
# Two-stage escape: (1) `'` -> `'\''` for shell single-quote embedding,
# (2) backslash/&/| escape so the value survives the s|...|VALUE| sed
# below. Verified end-to-end with apostrophes, spaces, &, |, $.
_sq_escaped=$(printf '%s' "$DATA_DIR" | sed "s/'/'\\\\''/g")
_sed_safe=$(printf '%s' "$_sq_escaped" | sed 's/[\\&|]/\\&/g')
sed "s|@@DATA_DIR@@|$_sed_safe|g" "$_css_launcher" > "$_css_launcher.tmp" \
&& mv "$_css_launcher.tmp" "$_css_launcher"
else
sed "s|DATA_DIR='@@DATA_DIR@@'|DATA_DIR=\"\$HOME/.local/share/unsloth\"|" \
"$_css_launcher" > "$_css_launcher.tmp" \
&& mv "$_css_launcher.tmp" "$_css_launcher"
fi
chmod +x "$_css_launcher"
# studio.conf: exe path + (env-mode only) persisted env vars so fresh
# shells launch the right install without re-exporting.
_css_quoted_exe=$(printf '%s' "$_css_exe" | sed "s/'/'\\\\''/g")
{
printf '%s\n' "UNSLOTH_EXE='$_css_quoted_exe'"
if [ "$_STUDIO_HOME_REDIRECT" = "env" ]; then
# When an override resolves to the legacy default, llama.cpp
# still lives at ~/.unsloth/llama.cpp (one shared build).
# Canonicalize the legacy side so a symlinked $HOME doesn't
# break the comparison.
_css_legacy_studio="$HOME/.unsloth/studio"
if [ -d "$_css_legacy_studio" ]; then
_css_legacy_studio=$(CDPATH= cd -P -- "$_css_legacy_studio" 2>/dev/null && pwd -P) \
|| _css_legacy_studio="$HOME/.unsloth/studio"
fi
if [ "$STUDIO_HOME" = "$_css_legacy_studio" ]; then
_css_llama_path="$HOME/.unsloth/llama.cpp"
else
_css_llama_path="$STUDIO_HOME/llama.cpp"
fi
_css_quoted_home=$(printf '%s' "$STUDIO_HOME" | sed "s/'/'\\\\''/g")
_css_quoted_llama=$(printf '%s' "$_css_llama_path" | sed "s/'/'\\\\''/g")
printf '%s\n' "export UNSLOTH_STUDIO_HOME='$_css_quoted_home'"
# UNSLOTH_LLAMA_CPP_PATH is a pre-existing user-controlled
# llama.cpp dir override; only default it if unset.
printf '%s\n' 'if [ -z "${UNSLOTH_LLAMA_CPP_PATH:-}" ]; then'
printf '%s\n' " export UNSLOTH_LLAMA_CPP_PATH='$_css_quoted_llama'"
printf '%s\n' 'fi'
fi
} > "$_css_data_dir/studio.conf"
# ── Icon: try bundled, then download ──
# rounded-512.png used for both Linux and macOS icons
_css_script_dir=""
if [ -n "${0:-}" ] && [ -f "$0" ]; then
_css_script_dir=$(cd "$(dirname "$0")" 2>/dev/null && pwd) || true
fi
# Try to find rounded-512.png from installed package (site-packages) or local repo
_css_found_icon=""
_css_venv_dir=$(dirname "$(dirname "$_css_exe")")
# Check site-packages
for _sp in "$_css_venv_dir"/lib/python*/site-packages/unsloth/studio/frontend/public; do
if [ -f "$_sp/rounded-512.png" ]; then
_css_found_icon="$_sp/rounded-512.png"
fi
done
# Check local repo (when running from clone)
if [ -z "$_css_found_icon" ] && [ -n "$_css_script_dir" ] && [ -f "$_css_script_dir/studio/frontend/public/rounded-512.png" ]; then
_css_found_icon="$_css_script_dir/studio/frontend/public/rounded-512.png"
fi
# Copy or download rounded-512.png (used for both Linux icon and macOS icns)
if [ -n "$_css_found_icon" ]; then
cp "$_css_found_icon" "$_css_icon_png" 2>/dev/null || true
cp "$_css_found_icon" "$_css_gem_png" 2>/dev/null || true
else
download "https://raw.githubusercontent.com/unslothai/unsloth/main/studio/frontend/public/rounded-512.png" "$_css_icon_png" 2>/dev/null || true
cp "$_css_icon_png" "$_css_gem_png" 2>/dev/null || true
fi
# Validate PNG header (first 4 bytes: \x89PNG)
_css_validate_png() {
[ -f "$1" ] || return 1
_hdr=$(od -An -tx1 -N4 "$1" 2>/dev/null | tr -d ' ')
[ "$_hdr" = "89504e47" ]
}
if [ -f "$_css_icon_png" ] && ! _css_validate_png "$_css_icon_png"; then
rm -f "$_css_icon_png"
fi
if [ -f "$_css_gem_png" ] && ! _css_validate_png "$_css_gem_png"; then
rm -f "$_css_gem_png"
fi
# ── Platform-specific shortcuts ──
# Env-mode installs are workspace-scoped: skip persistent desktop /
# Start-Menu / dock launchers that may point at a deleted workspace.
# Runtime launcher + studio.conf + icon are still written above.
if [ "$_STUDIO_HOME_REDIRECT" = "env" ]; then
substep "wrote launcher at $_css_launcher (persistent shortcuts skipped in env-override mode)"
return 0
fi
_css_created=0
if [ "$_css_os" = "linux" ]; then
# ── Linux: .desktop file ──
_css_app_dir="$HOME/.local/share/applications"
mkdir -p "$_css_app_dir"
_css_desktop="$_css_app_dir/unsloth-studio.desktop"
# Escape backslashes and double-quotes for .desktop Exec= field
_css_exec_escaped=$(printf '%s' "$_css_launcher" | sed 's/\\/\\\\/g; s/"/\\"/g')
_css_icon_escaped=$(printf '%s' "$_css_icon_png" | sed 's/\\/\\\\/g; s/"/\\"/g')
cat > "$_css_desktop" << DESKTOP_EOF
[Desktop Entry]
Version=1.0
Type=Application
Name=Unsloth Studio
Comment=Launch Unsloth Studio
Exec="$_css_exec_escaped"
Icon=$_css_icon_escaped
Terminal=true
StartupNotify=true
Categories=Development;Science;
DESKTOP_EOF
chmod +x "$_css_desktop"
# Copy to ~/Desktop if it exists
if [ -d "$HOME/Desktop" ]; then
cp "$_css_desktop" "$HOME/Desktop/unsloth-studio.desktop" 2>/dev/null || true
chmod +x "$HOME/Desktop/unsloth-studio.desktop" 2>/dev/null || true
# Mark as trusted so GNOME/Nautilus allows launching via double-click
if command -v gio >/dev/null 2>&1; then
gio set "$HOME/Desktop/unsloth-studio.desktop" metadata::trusted true 2>/dev/null || true
fi
fi
# Best-effort update database
update-desktop-database "$_css_app_dir" 2>/dev/null || true
_css_created=1
elif [ "$_css_os" = "macos" ]; then
# ── macOS: .app bundle ──
_css_app="$HOME/Applications/Unsloth Studio.app"
_css_contents="$_css_app/Contents"
_css_macos_dir="$_css_contents/MacOS"
_css_res_dir="$_css_contents/Resources"
# Recreate bundle if root or any subpath is a symlink (mkdir -p follows them).
if [ -L "$_css_app" ] || [ -L "$_css_contents" ] \
|| [ -L "$_css_macos_dir" ] || [ -L "$_css_res_dir" ]; then
rm -rf "$_css_app" 2>/dev/null || {
echo "[ERROR] $_css_app contains a symlinked bundle path; remove manually and re-run install" >&2
return 1
}
elif [ -e "$_css_app" ] && [ ! -d "$_css_app" ]; then
echo "[ERROR] $_css_app exists but is not a directory; remove manually and re-run install" >&2
return 1
fi
mkdir -p "$_css_macos_dir" "$_css_res_dir"
# Info.plist
cat > "$_css_contents/Info.plist" << 'PLIST_EOF'
<?xml version="1.0" encoding="UTF-8"?>
<!DOCTYPE plist PUBLIC "-//Apple//DTD PLIST 1.0//EN" "http://www.apple.com/DTDs/PropertyList-1.0.dtd">
<plist version="1.0">
<dict>
<key>CFBundleIdentifier</key>
<string>ai.unsloth.studio</string>
<key>CFBundleName</key>
<string>Unsloth Studio</string>
<key>CFBundleDisplayName</key>
<string>Unsloth Studio</string>
<key>CFBundleExecutable</key>
<string>launch-studio</string>
<key>CFBundleIconFile</key>
<string>AppIcon</string>
<key>CFBundlePackageType</key>
<string>APPL</string>
<key>CFBundleVersion</key>
<string>1.0</string>
<key>CFBundleShortVersionString</key>
<string>1.0</string>
<key>LSMinimumSystemVersion</key>
<string>10.15</string>
<key>NSHighResolutionCapable</key>
<true/>
</dict>
</plist>
PLIST_EOF
# Executable stub: same single-quoted-heredoc + sed-substitute
# pattern as launch-studio.sh so $-vars in $_css_data_dir don't
# expand at .app launch time.
_css_sq_dir=$(printf '%s' "$_css_data_dir" | sed "s/'/'\\\\''/g")
_css_sed_dir=$(printf '%s' "$_css_sq_dir" | sed 's/[\\&|]/\\&/g')
cat > "$_css_macos_dir/launch-studio" << 'STUB_EOF'
#!/bin/sh
exec '@@DATA_DIR@@/launch-studio.sh' "$@"
STUB_EOF
sed "s|@@DATA_DIR@@|$_css_sed_dir|g" "$_css_macos_dir/launch-studio" \
> "$_css_macos_dir/launch-studio.tmp" \
&& mv "$_css_macos_dir/launch-studio.tmp" "$_css_macos_dir/launch-studio"
chmod +x "$_css_macos_dir/launch-studio"
# Build AppIcon.icns from unsloth-gem.png (2240x2240)
if [ -f "$_css_gem_png" ] && command -v sips >/dev/null 2>&1 && command -v iconutil >/dev/null 2>&1; then
_css_tmpdir=$(mktemp -d 2>/dev/null)
if [ -d "$_css_tmpdir" ]; then
_css_iconset="$_css_tmpdir/AppIcon.iconset"
mkdir -p "$_css_iconset"
_css_icon_ok=true
for _sz in 16 32 128 256 512; do
_sz2=$((_sz * 2))
sips -z "$_sz" "$_sz" "$_css_gem_png" --out "$_css_iconset/icon_${_sz}x${_sz}.png" >/dev/null 2>&1 || _css_icon_ok=false
sips -z "$_sz2" "$_sz2" "$_css_gem_png" --out "$_css_iconset/icon_${_sz}x${_sz}@2x.png" >/dev/null 2>&1 || _css_icon_ok=false
done
if [ "$_css_icon_ok" = "true" ]; then
iconutil -c icns "$_css_iconset" -o "$_css_res_dir/AppIcon.icns" 2>/dev/null || true
fi
rm -rf "$_css_tmpdir"
fi
fi
# Fallback: copy PNG as icon
if [ ! -f "$_css_res_dir/AppIcon.icns" ] && [ -f "$_css_icon_png" ]; then
cp "$_css_icon_png" "$_css_res_dir/AppIcon.icns" 2>/dev/null || true
fi
# Touch so Finder indexes it
touch "$_css_app"
# Symlink on Desktop
if [ -d "$HOME/Desktop" ]; then
ln -sf "$_css_app" "$HOME/Desktop/Unsloth Studio" 2>/dev/null || true
fi
_css_created=1
elif [ "$_css_os" = "wsl" ]; then
# ── WSL: create Windows Desktop and Start Menu shortcuts ──
# Detect current WSL distro for targeted shortcut
_css_distro="${WSL_DISTRO_NAME:-}"
# Build the wsl.exe arguments.
# Double-quote distro name and launcher path for Windows command line
# parsing so values with spaces (e.g. "Ubuntu Preview") are kept as
# single arguments.
_css_wsl_args=""
if [ -n "$_css_distro" ]; then
_css_wsl_args="-d \"$_css_distro\" "
fi
_css_wsl_args="${_css_wsl_args}-- bash -l -c \"exec \\\"$_css_launcher\\\"\""
# Detect whether Windows Terminal (wt.exe) is available (better UX)
_css_use_wt=false
if command -v wt.exe >/dev/null 2>&1; then
_css_use_wt=true
fi
if [ "$_css_use_wt" = true ]; then
_css_sc_target='wt.exe'
_css_sc_args="wsl.exe $_css_wsl_args"
else
_css_sc_target='wsl.exe'
_css_sc_args="$_css_wsl_args"
fi
# Escape single quotes for PowerShell single-quoted string embedding
_css_sc_args_ps=$(printf '%s' "$_css_sc_args" | sed "s/'/''/g")
# DISTINCT shortcut name so the WSL launcher never clobbers a native
# install's "Unsloth Studio.lnk" in the same folder. Per-distro suffix.
if [ -n "$_css_distro" ]; then
_css_lnk_name="Unsloth Studio (WSL - ${_css_distro}).lnk"
else
_css_lnk_name="Unsloth Studio (WSL).lnk"
fi
_css_lnk_name_ps=$(printf '%s' "$_css_lnk_name" | sed "s/'/''/g")
# Create shortcuts via a temp PowerShell script to avoid escaping issues
_css_ps1_tmp=$(mktemp /tmp/unsloth-shortcut-XXXXXX.ps1 2>/dev/null) || true
if [ -n "$_css_ps1_tmp" ]; then
cat > "$_css_ps1_tmp" << WSLPS1_EOF
\$WshShell = New-Object -ComObject WScript.Shell
\$targetExe = (Get-Command '$_css_sc_target' -ErrorAction SilentlyContinue).Source
if (-not \$targetExe) { exit 1 }
# Best-effort: fetch the Unsloth icon to a stable Windows path (shared with a
# native install if one exists) so the WSL shortcut shows the proper icon.
\$iconDir = Join-Path \$env:LOCALAPPDATA 'Unsloth Studio'
\$iconPath = Join-Path \$iconDir 'unsloth.ico'
\$preIconHash = \$null
if (Test-Path -LiteralPath \$iconPath) {
try { \$preIconHash = (Get-FileHash -LiteralPath \$iconPath -Algorithm SHA256).Hash } catch {}
}
if (-not (Test-Path -LiteralPath \$iconPath)) {
try {
New-Item -ItemType Directory -Force -Path \$iconDir | Out-Null
Invoke-WebRequest -Uri 'https://raw.githubusercontent.com/unslothai/unsloth/main/studio/frontend/public/unsloth.ico' -OutFile \$iconPath -UseBasicParsing -ErrorAction Stop
} catch {}
}
\$hasIcon = \$false
if (Test-Path -LiteralPath \$iconPath) {
try { \$b = [System.IO.File]::ReadAllBytes(\$iconPath); if (\$b.Length -ge 4 -and \$b[0] -eq 0 -and \$b[1] -eq 0 -and \$b[2] -eq 1 -and \$b[3] -eq 0) { \$hasIcon = \$true } } catch {}
}
\$locations = @(
[Environment]::GetFolderPath('Desktop'),
(Join-Path \$env:APPDATA 'Microsoft\Windows\Start Menu\Programs')
)
\$created = @()
\$firstShortcut = \$false
foreach (\$dir in \$locations) {
if (-not \$dir -or -not (Test-Path \$dir)) { continue }
\$linkPath = Join-Path \$dir '$_css_lnk_name_ps'
if (-not (Test-Path -LiteralPath \$linkPath)) { \$firstShortcut = \$true }
\$shortcut = \$WshShell.CreateShortcut(\$linkPath)
\$shortcut.TargetPath = \$targetExe
\$shortcut.Arguments = '$_css_sc_args_ps'
\$shortcut.Description = 'Launch Unsloth Studio (WSL)'
if (\$hasIcon) { \$shortcut.IconLocation = "\$iconPath,0" }
\$shortcut.Save()
\$created += \$linkPath
}
\$iconChanged = \$false
if (\$hasIcon) {
if (-not \$preIconHash) {
\$iconChanged = \$true
} else {
try {
\$postIconHash = (Get-FileHash -LiteralPath \$iconPath -Algorithm SHA256).Hash
\$iconChanged = (\$postIconHash -ne \$preIconHash)
} catch { \$iconChanged = \$true }
}
} elseif (\$preIconHash) {
\$iconChanged = \$true
}
# Per-item refresh always (cheap, non-disruptive) so the rewritten .lnk renders
# immediately instead of a stale/blank (generic) icon. The reliable fix (no
# explorer restart) is a PER-ITEM SHChangeNotify(SHCNE_UPDATEITEM, SHCNF_PATHW,
# <lnk>) -- the global SHCNE_ASSOCCHANGED alone does not recover a stale item.
try {
Add-Type -Namespace UnslothShell -Name IconRefresh -MemberDefinition '[System.Runtime.InteropServices.DllImport("shell32.dll", CharSet = System.Runtime.InteropServices.CharSet.Unicode)] public static extern void SHChangeNotify(int e, uint f, string a, System.IntPtr b);' -ErrorAction SilentlyContinue
foreach (\$p in \$created) { try { [UnslothShell.IconRefresh]::SHChangeNotify(0x00002000, 0x0005, \$p, [System.IntPtr]::Zero) } catch {} }
[UnslothShell.IconRefresh]::SHChangeNotify(0x08000000, 0, \$null, [System.IntPtr]::Zero)
} catch {}
# Heavier on-disk icon-cache clear + StartMenuExperienceHost tile rebuild
# (preserve start2.bin) only on first install or a real icon change, so a no-op
# WSL reinstall does not run a dropper-like clear-cache + kill cluster each time.
if (\$created.Count -gt 0 -and (\$firstShortcut -or \$iconChanged)) {
try { & "\$env:SystemRoot\System32\ie4uinit.exe" -ClearIconCache } catch {}
try { & "\$env:SystemRoot\System32\ie4uinit.exe" -show } catch {}
try {
\$smeh = Join-Path \$env:LOCALAPPDATA 'Packages\Microsoft.Windows.StartMenuExperienceHost_cw5n1h2txyewy\TempState'
if (Test-Path -LiteralPath \$smeh) {
Get-ChildItem -LiteralPath \$smeh -Filter 'TileCache_*' -ErrorAction SilentlyContinue | Remove-Item -Force -ErrorAction SilentlyContinue
Remove-Item -LiteralPath (Join-Path \$smeh 'StartUnifiedTileModelCache.dat') -Force -ErrorAction SilentlyContinue
Stop-Process -Name StartMenuExperienceHost -Force -ErrorAction SilentlyContinue
}
} catch {}
}
WSLPS1_EOF
# Convert WSL path to Windows path for powershell.exe
_css_ps1_win=$(wslpath -w "$_css_ps1_tmp" 2>/dev/null)
if [ -n "$_css_ps1_win" ]; then
powershell.exe -NoProfile -ExecutionPolicy Bypass -File "$_css_ps1_win" >/dev/null 2>&1 && _css_created=1
fi
rm -f "$_css_ps1_tmp"
fi
# If WSL interop is disabled (powershell.exe "Exec format error"), the
# shortcut wasn't created; tell the user how to launch / re-enable it.
if [ "$_css_created" -ne 1 ]; then
substep "Couldn't create the Windows shortcut (WSL interop may be disabled)." "$C_WARN"
substep " Launch Studio from Windows: wsl -d \"$_css_distro\" -- bash -lc 'unsloth studio'" "$C_WARN"
substep " (re-enable shortcuts: turn WSL interop back on, e.g. run 'wsl --shutdown' then reopen WSL.)" "$C_WARN"
fi
fi
if [ "$_css_created" -eq 1 ]; then
substep "Created Unsloth Studio shortcut"
fi
}
echo ""
printf " ${C_TITLE}%s${C_RST}\n" "🦥 Unsloth Studio Installer"
printf " ${C_DIM}%s${C_RST}\n" "$RULE"
echo ""
# ── Detect platform ──
tauri_log "STEP" "Detecting platform"
OS="linux"
if [ "$(uname)" = "Darwin" ]; then
OS="macos"
elif grep -qi microsoft /proc/version 2>/dev/null; then
OS="wsl"
fi
step "platform" "$OS"
# Regen launcher/shortcuts only; used by `unsloth studio update`.
if [ "$_SHORTCUTS_ONLY" = true ]; then
# Tauri owns its own shortcuts.
if [ "$TAURI_MODE" != true ]; then
VENV_ABS_BIN="$VENV_DIR/bin"
if [ ! -x "$VENV_ABS_BIN/unsloth" ]; then
echo "ERROR: unsloth binary missing at '$VENV_ABS_BIN/unsloth'; run install.sh first." >&2
exit 1
fi
create_studio_shortcuts "$VENV_ABS_BIN/unsloth" "$OS"
fi
exit 0
fi
# ── Architecture detection & Python version ──
_ARCH=$(uname -m)
MAC_INTEL=false
if [ "$OS" = "macos" ] && [ "$_ARCH" = "x86_64" ]; then
# Guard against Apple Silicon running under Rosetta (reports x86_64).
# sysctl hw.optional.arm64 returns "1" on Apple Silicon even in Rosetta.
if [ "$(sysctl -in hw.optional.arm64 2>/dev/null || echo 0)" = "1" ]; then
echo ""
echo " WARNING: Apple Silicon detected, but this shell is running under Rosetta (x86_64)."
echo " Re-run install.sh from a native arm64 terminal for full PyTorch support."
echo " Continuing in GGUF-only mode for now."
echo ""
fi
MAC_INTEL=true
fi
if [ -n "$_USER_PYTHON" ]; then
PYTHON_VERSION="$_USER_PYTHON"
echo " Using user-specified Python $PYTHON_VERSION (--python override)"
elif [ "$MAC_INTEL" = true ]; then
PYTHON_VERSION="3.12"
else
PYTHON_VERSION="3.13"
fi
if [ "$MAC_INTEL" = true ]; then
echo ""
echo " NOTE: Intel Mac (x86_64) detected."
echo " PyTorch is unavailable for this platform (dropped Jan 2024)."
echo " Studio will install in GGUF-only mode."
echo " Chat, inference via GGUF, and data recipes will work."
echo " Training requires Apple Silicon or Linux with GPU."
echo ""
fi
# ── Unified SKIP_TORCH: --no-torch flag OR Intel Mac auto-detection ──
SKIP_TORCH=false
if [ "$_NO_TORCH_FLAG" = true ] || [ "$MAC_INTEL" = true ]; then
SKIP_TORCH=true
fi
# Apple Silicon: exclude broken mlx-lm 0.31.3 (QK-norm load regression for
# gemma4 / qwen3_5; mlx-lm #1242). A curl-piped install has no overrides file
# and skips the guarded MLX step (SKIP_STUDIO_BASE=1), so this is the only cover.
_MLX_LM_EXCLUDE_ARG=""
# Apple Silicon: override mlx-vlm / mlx-lm's transformers pin (see overrides file).
if [ "$OS" = "macos" ] && [ "$_ARCH" = "arm64" ]; then
_MLX_LM_EXCLUDE_ARG="mlx-lm!=0.31.3"
_OVERRIDES_FILE="$(cd "$(dirname "$0" 2>/dev/null || echo ".")" && pwd)/studio/backend/requirements/single-env/overrides-darwin-arm64.txt"
if [ -f "$_OVERRIDES_FILE" ]; then
# uv splits UV_OVERRIDE on whitespace, so a repo path with whitespace
# truncates it and aborts every later uv call (issue #6503). Hand uv a copy.
case "$_OVERRIDES_FILE" in
*[[:space:]]*)
_UV_OVERRIDE_TMPDIR=$(mktemp -d 2>/dev/null) || _UV_OVERRIDE_TMPDIR=""
case "$_UV_OVERRIDE_TMPDIR" in
"") ;;
*[[:space:]]*) rm -rf "$_UV_OVERRIDE_TMPDIR" 2>/dev/null || true; _UV_OVERRIDE_TMPDIR="" ;;
*)
if cp "$_OVERRIDES_FILE" "$_UV_OVERRIDE_TMPDIR/overrides-darwin-arm64.txt" 2>/dev/null; then
_OVERRIDES_FILE="$_UV_OVERRIDE_TMPDIR/overrides-darwin-arm64.txt"
else
rm -rf "$_UV_OVERRIDE_TMPDIR" 2>/dev/null || true
_UV_OVERRIDE_TMPDIR=""
fi
;;
esac
;;
esac
export UV_OVERRIDE="$_OVERRIDES_FILE"
fi
fi
_TAURI_INITIAL_GPU_BRANCH="unknown"
if [ "$SKIP_TORCH" = true ]; then
_TAURI_INITIAL_GPU_BRANCH="no_torch"
elif [ "$OS" = "macos" ]; then
_TAURI_INITIAL_GPU_BRANCH="mac"
fi
tauri_diag_marker "$_TAURI_INITIAL_GPU_BRANCH" "none"
# AMD GPU name from the Windows host via WMI, or empty. Discrete cards aren't in
# /proc/cpuinfo, so ask Windows. Cached ("-" = negative), self-contained, bounded
# to 10s. Defined here so the reroute below can use it before _run_bounded exists.
_WSL_AMD_GPU_NAME_CACHE=""
_wsl_amd_gpu_name() {
if [ -n "$_WSL_AMD_GPU_NAME_CACHE" ]; then
[ "$_WSL_AMD_GPU_NAME_CACHE" = "-" ] && return 1
printf '%s' "$_WSL_AMD_GPU_NAME_CACHE"; return 0
fi
command -v powershell.exe >/dev/null 2>&1 || { _WSL_AMD_GPU_NAME_CACHE="-"; return 1; }
_wag_ps="(Get-CimInstance Win32_VideoController | Where-Object { \$_.Name -match 'AMD|Radeon' } | Select-Object -First 1).Name"
if command -v timeout >/dev/null 2>&1; then
_wag_n="$(timeout 10 powershell.exe -NoProfile -Command "$_wag_ps" 2>/dev/null | tr -d '\r\n\000')"
else
_wag_n="$(powershell.exe -NoProfile -Command "$_wag_ps" 2>/dev/null | tr -d '\r\n\000')"
fi
if [ -n "$_wag_n" ]; then _WSL_AMD_GPU_NAME_CACHE="$_wag_n"; printf '%s' "$_wag_n"; return 0; fi
_WSL_AMD_GPU_NAME_CACHE="-"; return 1
}
# ── Bounded command runner ──
# Runs a command under a 10s timeout when the `timeout` binary is available,
# otherwise runs it unbounded. Keeps a wedged nvidia-smi (blocking during
# driver init or after a reset) from hanging the installer: a timed-out probe
# exits nonzero and is treated exactly like a failed probe. No-op semantics on
# hosts without `timeout` (e.g. macOS) or when the probe is healthy.
_run_bounded() {
if command -v timeout >/dev/null 2>&1; then
timeout 10 "$@"
else
"$@"
fi
}
# Returns 0 (true) when CUDA_VISIBLE_DEVICES is set to "" or "-1", i.e. every
# NVIDIA device is deliberately hidden (mixed AMD+NVIDIA hosts steering work to
# the AMD card). Unset means all devices visible. nvidia-smi ignores this env
# var, so the probes below cannot see the distinction on their own.
_cvd_hides_nvidia() {
[ "${CUDA_VISIBLE_DEVICES+set}" = "set" ] || return 1
_cvd_trim=$(printf '%s' "$CUDA_VISIBLE_DEVICES" | tr -d '[:space:]')
[ -z "$_cvd_trim" ] || [ "$_cvd_trim" = "-1" ]
}
# ── NVIDIA usable-GPU helper ──
# Returns 0 (true) if an NVIDIA GPU is present and usable.
# Primary probe: nvidia-smi -L. Fallback: /proc/driver/nvidia/gpus/ sysfs,
# which the NVIDIA driver populates on Linux regardless of nvidia-smi state
# -- handles PATH gaps, subprocess timeouts, and driver init races that
# could otherwise cause nvidia-smi to fail and silence NVIDIA detection.
# A GPU hidden via CUDA_VISIBLE_DEVICES=""/-1 counts as NOT usable (matches
# install_llama_prebuilt.py has_usable_nvidia), so AMD/CPU routing still runs.
_has_usable_nvidia_gpu() {
if _cvd_hides_nvidia; then
return 1
fi
_nvsmi=""
if command -v nvidia-smi >/dev/null 2>&1; then
_nvsmi="nvidia-smi"
elif [ -x "/usr/bin/nvidia-smi" ]; then
_nvsmi="/usr/bin/nvidia-smi"
fi
if [ -n "$_nvsmi" ]; then
if _run_bounded "$_nvsmi" -L 2>/dev/null | awk '/^GPU[[:space:]]+[0-9]+:/{found=1} END{exit !found}'; then
return 0
fi
fi
# Fallback: NVIDIA driver exposes one subdir per GPU under this path.
if [ -d /proc/driver/nvidia/gpus ] && \
[ -n "$(ls -A /proc/driver/nvidia/gpus 2>/dev/null)" ]; then
return 0
fi
return 1
}
# Strix Halo ROCm-on-WSL only targets Ubuntu 24.04. On a newer distro (e.g. 26.04)
# with a 24.04 distro present, re-run the install there and stop; else fall through
# to CPU + the `wsl --install` hint below (never auto-create a distro). Runs before
# the STUDIO_HOME mkdir/venv so the origin distro is untouched.
_maybe_reroute_strixhalo_to_2404() {
[ "${OS:-}" = "wsl" ] || return 0
[ "${SKIP_TORCH:-false}" = "false" ] || return 0
[ "${UNSLOTH_SKIP_ROCM_WSL_SETUP:-0}" = "1" ] && return 0
[ "${UNSLOTH_WSL_REROUTED:-0}" = "1" ] && return 0
[ -e /dev/dxg ] || return 0
# A usable NVIDIA GPU (common on hybrid AMD+NVIDIA hosts) means the CUDA path works on
# this distro, so don't reroute for AMD. _has_usable_nvidia_gpu (moved above) honors
# CUDA_VISIBLE_DEVICES=""/-1 and the /proc/driver/nvidia fallback for PATH/timeout gaps.
if _has_usable_nvidia_gpu; then return 0; fi
# Strix APUs show in /proc/cpuinfo; discrete cards don't, so also try WMI. Either reroutes.
if ! grep -qiE 'Ryzen AI Max|Radeon 80[0-9]0S|Strix Halo' /proc/cpuinfo 2>/dev/null \
&& ! _wsl_amd_gpu_name >/dev/null 2>&1; then
return 0
fi
# Already ROCm-on-WSL? leave a working GPU alone, whatever the version.
if [ -e /opt/rocm/lib/librocdxg.so ] || [ -e /opt/rocm/lib64/librocdxg.so ]; then
return 0
fi
_rr_ver=""
[ -r /etc/os-release ] && _rr_ver=$(. /etc/os-release 2>/dev/null; printf '%s' "${VERSION_ID:-}")
# The bootstrap (scripts/install_rocm_wsl_strixhalo.sh) dies on any VERSION_ID but
# 24.04 and pins the noble repo, so 24.04 is the sole GPU-supported target; leave a
# 24.04 user alone. (Working ROCm on other versions was caught by librocdxg above.)
case "$_rr_ver" in 24.04) return 0 ;; esac
# Distro is now unsupported. If we can't reroute to a 24.04 target, stay CPU-only
# AND skip the later origin-distro ROCm bootstrap (it ignores distro version, so it
# would otherwise install ROCm into 26.04 etc.).
command -v wsl.exe >/dev/null 2>&1 || { UNSLOTH_SKIP_ROCM_WSL_SETUP=1; return 0; }
# Route only to an installed Ubuntu-24.04 (bootstrap's only target). Match the whole
# line (one distro per line from wsl.exe -l -q), not a substring, so "Ubuntu-24.04-test"
# can't masquerade as it and then fail `wsl -d`.
# || true: no match is expected, not an error (script runs under set -e).
_rr_distros=$(wsl.exe -l -q 2>/dev/null | tr -d '\000\r')
_rr_target=$(printf '%s\n' "$_rr_distros" | grep -ixF "Ubuntu-24.04" | head -n1) || true
[ -n "$_rr_target" ] || {
substep "ROCm-on-WSL (GPU) needs Ubuntu 24.04; this distro is Ubuntu ${_rr_ver:-unknown}." "$C_WARN"
substep "No Ubuntu-24.04 WSL distro found; staying CPU-only. Install Ubuntu-24.04 and re-run there for GPU." "$C_WARN"
UNSLOTH_SKIP_ROCM_WSL_SETUP=1
return 0
}
echo ""
substep "ROCm-on-WSL (GPU) needs Ubuntu 24.04; this distro is Ubuntu ${_rr_ver:-unknown}." "$C_WARN"
substep "Found an existing $_rr_target distro -- continuing the GPU install there." "$C_OK"
# A --local checkout can't be replayed via curl|sh (the repo isn't in the target
# distro), so tell the user to re-run there rather than silently run a different install.
if [ "$STUDIO_LOCAL_INSTALL" = true ]; then
substep "This is a --local install; re-run it from $_rr_target instead:" "$C_WARN"
substep " wsl -d $_rr_target -- bash -lc 'cd <your checkout> && ./install.sh --local'" "$C_WARN"
substep "Continuing CPU-only in Ubuntu ${_rr_ver:-this distro} for now." "$C_WARN"
# Unsupported distro, can't reroute a --local checkout: skip the origin ROCm bootstrap.
UNSLOTH_SKIP_ROCM_WSL_SETUP=1
return 0
fi
# Forward the caller's options/env (custom package/python/home) so the rerouted
# install matches what was asked for, not a default install.
_rr_q() { printf "'%s'" "$(printf '%s' "$1" | sed "s/'/'\\\\''/g")"; }
_rr_exports="set -o pipefail; export UNSLOTH_WSL_REROUTED=1"
[ "$_STUDIO_HOME_REDIRECT" = "env" ] && _rr_exports="$_rr_exports; export UNSLOTH_STUDIO_HOME=$(_rr_q "$STUDIO_HOME")"
# Forward explicit ROCm-bootstrap consent (e.g. Tauri) so the child auto-enables the
# GPU instead of falling back to the desktop-app prompt path.
[ "${UNSLOTH_ROCM_WSL_AUTO:-0}" = "1" ] && _rr_exports="$_rr_exports; export UNSLOTH_ROCM_WSL_AUTO=1"
_rr_args=""
[ "$PACKAGE_NAME" != "unsloth" ] && _rr_args="$_rr_args --package $(_rr_q "$PACKAGE_NAME")"
[ -n "$_USER_PYTHON" ] && _rr_args="$_rr_args --python $(_rr_q "$_USER_PYTHON")"
[ "$_VERBOSE" = true ] && _rr_args="$_rr_args --verbose"
[ "$TAURI_MODE" = true ] && _rr_args="$_rr_args --tauri"
if [ -n "${UNSLOTH_WSL_REROUTE_CMD:-}" ]; then
_rr_cmd="$UNSLOTH_WSL_REROUTE_CMD" # user took full control
elif [ -n "$_rr_args" ]; then
_rr_cmd="curl -fsSL https://unsloth.ai/install.sh | sh -s --$_rr_args"
else
_rr_cmd="curl -fsSL https://unsloth.ai/install.sh | sh"
fi
# pipefail so a failed curl in `curl | sh` isn't masked by sh exiting 0 on empty
# input (which would wrongly report success and exit 0 the parent installer).
_rr_rc=0
wsl.exe -d "$_rr_target" -- bash -lc "$_rr_exports; $_rr_cmd" || _rr_rc=$?
if [ "$_rr_rc" -eq 0 ]; then
exit 0
fi
# In Tauri mode the child uses exit 2 ([TAURI:NEED_SUDO]) to ask the desktop app to
# elevate for the target distro; the child already printed the NEED_SUDO line, so
# propagate the code instead of masking it as a reroute failure and dropping to CPU.
if [ "$TAURI_MODE" = true ] && [ "$_rr_rc" -eq 2 ]; then
exit 2
fi
substep "Could not auto-continue in $_rr_target; run it yourself:" "$C_WARN"
substep " wsl -d $_rr_target -- bash -lc 'curl -fsSL https://unsloth.ai/install.sh | sh'"
substep "Continuing CPU-only in Ubuntu ${_rr_ver:-this distro} for now." "$C_WARN"
# Reroute failed; don't let the later bootstrap install ROCm into this unsupported
# distro -- stay CPU-only.
UNSLOTH_SKIP_ROCM_WSL_SETUP=1
return 0
}
_maybe_reroute_strixhalo_to_2404 || true
# ── Check system dependencies ──
# cmake/git are only needed to *build* llama.cpp from source. Studio downloads a
# prebuilt by default, and setup.sh self-skips the source build when they're
# absent -- so macOS doesn't block on cmake (requiring it would force a manual
# Homebrew install). Linux keeps requiring them; its package manager has them.
tauri_log "STEP" "Checking system dependencies"
case "$OS" in
macos)
# Xcode Command Line Tools provide the C/C++ compiler and git.
if ! xcode-select -p >/dev/null 2>&1; then
echo ""
echo "==> Xcode Command Line Tools are required."
echo " Installing (a system dialog will appear)..."
xcode-select --install </dev/null 2>/dev/null || true
echo " After the installation completes, please re-run this script."
exit 1
fi
# cmake is only needed for a source build; the default prebuilt path
# doesn't use it, so its absence is not fatal -- no Homebrew prerequisite.
if command -v cmake >/dev/null 2>&1; then
step "deps" "all system dependencies found"
else
step "deps" "using prebuilt llama.cpp (cmake not found)" "$C_WARN"
substep "Install cmake only if you want a source build: brew install cmake"
fi
;;
linux|wsl)
MISSING=""
command -v cmake >/dev/null 2>&1 || MISSING="$MISSING cmake"
command -v git >/dev/null 2>&1 || MISSING="$MISSING git"
# curl or wget is needed for downloads; check both
if ! command -v curl >/dev/null 2>&1 && ! command -v wget >/dev/null 2>&1; then
MISSING="$MISSING curl"
fi
command -v gcc >/dev/null 2>&1 || MISSING="$MISSING build-essential"
# libcurl dev headers for llama.cpp HTTPS support
command -v curl-config >/dev/null 2>&1 || MISSING="$MISSING libcurl4-openssl-dev"
MISSING=$(echo "$MISSING" | sed 's/^ *//')
if [ -n "$MISSING" ]; then
echo ""
step "deps" "missing: $MISSING" "$C_WARN"
substep "These are needed to build the GGUF inference engine."
if command -v apt-get >/dev/null 2>&1; then
_smart_apt_install $MISSING
else
echo " Automatic system package installation is supported on apt-based"
echo " Linux distributions (Ubuntu/Debian) only. Please install the"
echo " missing dependencies with your package manager, then re-run setup:"
echo " $MISSING"
echo ""
echo " Examples:"
echo " Fedora/RHEL: sudo dnf install cmake git gcc gcc-c++ make libcurl-devel"
echo " Arch: sudo pacman -S --needed cmake git base-devel curl"
echo " openSUSE: sudo zypper install cmake git gcc gcc-c++ make libcurl-devel"
exit 1
fi
echo ""
else
step "deps" "all system dependencies found"
fi
;;
esac
# ── Install uv ──
tauri_log "STEP" "Installing uv package manager"
UV_MIN_VERSION="0.8.16"
# When bytecode compilation is enabled, large installs can exceed uv's 60s default on slow machines. Default to 180s, preserving overrides ("0" disables).
: "${UV_COMPILE_BYTECODE_TIMEOUT:=180}"
export UV_COMPILE_BYTECODE_TIMEOUT
# uv >= 0.8.16 retries HTTP/2 streaming body errors; raise retries and read
# timeout for large wheel downloads. ":=" preserves any user override.
: "${UV_HTTP_RETRIES:=5}"
export UV_HTTP_RETRIES
: "${UV_HTTP_TIMEOUT:=180}"
export UV_HTTP_TIMEOUT
# macOS: trust the system Keychain so uv uses SecureTransport instead of rustls.
# Required behind TLS-inspecting proxies (Cisco Umbrella, Zscaler, etc.) which
# present their own CA certificate. rustls (uv's default) ignores the Keychain
# and rejects intercepted connections with "invalid peer certificate: UnknownIssuer".
# Set both vars: UV_SYSTEM_CERTS is the modern one (uv >= 0.11), UV_NATIVE_TLS the
# legacy one understood by uv 0.8.16-0.10.x, which the installer keeps if already
# present (UV_MIN_VERSION) and which ignores UV_SYSTEM_CERTS. Mirror the choice onto
# both so it works on either uv. Opt out with UV_SYSTEM_CERTS=0.
if [ "$OS" = "macos" ]; then
: "${UV_SYSTEM_CERTS:=1}"
: "${UV_NATIVE_TLS:=$UV_SYSTEM_CERTS}"
fi
[ -n "${UV_SYSTEM_CERTS:-}" ] && export UV_SYSTEM_CERTS
[ -n "${UV_NATIVE_TLS:-}" ] && export UV_NATIVE_TLS
version_ge() {
# returns 0 if $1 >= $2
_a=$1
_b=$2
while [ -n "$_a" ] || [ -n "$_b" ]; do
_a_part=${_a%%.*}
_b_part=${_b%%.*}
[ "$_a" = "$_a_part" ] && _a="" || _a=${_a#*.}
[ "$_b" = "$_b_part" ] && _b="" || _b=${_b#*.}
[ -z "$_a_part" ] && _a_part=0
[ -z "$_b_part" ] && _b_part=0
if [ "$_a_part" -gt "$_b_part" ]; then
return 0
fi
if [ "$_a_part" -lt "$_b_part" ]; then
return 1
fi
done
return 0
}
_uv_version_ok() {
_raw=$("$1" --version 2>/dev/null | awk '{print $2}') || return 1
[ -n "$_raw" ] || return 1
_ver=${_raw%%[-+]*}
case "$_ver" in
''|*[!0-9.]*) return 1 ;;
esac
version_ge "$_ver" "$UV_MIN_VERSION" || return 1
# Prerelease of the exact minimum (e.g. 0.7.14-rc1) is still below stable 0.7.14
[ "$_ver" = "$UV_MIN_VERSION" ] && [ "$_raw" != "$_ver" ] && return 1
return 0
}
if ! command -v uv >/dev/null 2>&1 || ! _uv_version_ok uv; then
substep "installing uv package manager..."
_uv_tmp=$(mktemp)
download "https://astral.sh/uv/install.sh" "$_uv_tmp"
run_maybe_quiet sh "$_uv_tmp" </dev/null
rm -f "$_uv_tmp"
if [ -f "$HOME/.local/bin/env" ]; then
. "$HOME/.local/bin/env"
fi
export PATH="$HOME/.local/bin:$PATH"
fi
# ── Create venv (migrate old layout if possible, otherwise fresh) ──
tauri_log "STEP" "Creating virtual environment"
mkdir -p "$STUDIO_HOME"
_MIGRATED=false
if [ -x "$VENV_DIR/bin/python" ]; then
# why: matching guard to the .venv branch below -- in env-mode
# $STUDIO_HOME is a user-chosen workspace, so refuse to nuke an
# existing $STUDIO_HOME/unsloth_studio that lacks Studio sentinels.
# Accept the in-VENV ownership marker so partial-install retries are
# not blocked. Sentinels must be regular files: -f follows symlinks
# to files (the legitimate ln -s shim shape) but rejects directories
# and broken/dir-targeted symlinks.
if [ "$_STUDIO_HOME_REDIRECT" = "env" ] \
&& [ ! -f "$VENV_DIR/.unsloth-studio-owned" ] \
&& [ ! -f "$STUDIO_HOME/share/studio.conf" ] \
&& [ ! -f "$STUDIO_HOME/bin/unsloth" ]; then
echo "ERROR: $VENV_DIR already exists but does not look like an Unsloth Studio install." >&2
echo " Move it aside or choose an empty UNSLOTH_STUDIO_HOME." >&2
exit 1
fi
# New layout already exists — replace only after preserving rollback copy.
substep "preserving existing environment for rollback..."
_start_studio_venv_replacement "$VENV_DIR"
elif [ "$_STUDIO_HOME_REDIRECT" != "env" ] && [ -x "$STUDIO_HOME/.venv/bin/python" ]; then
# Old layout exists — validate before migrating.
# Skip in env-mode so we don't rm -rf an unrelated .venv at the
# workspace root (e.g. user's existing project Python venv).
# In no-torch mode, a missing torch package is expected; validate Python only.
substep "found legacy Studio environment, validating..."
_legacy_ok=false
if [ "$SKIP_TORCH" = true ]; then
if "$STUDIO_HOME/.venv/bin/python" -c "import sys; print(sys.executable)" >/dev/null 2>&1; then
_legacy_ok=true
fi
elif "$STUDIO_HOME/.venv/bin/python" -c "
import torch
device = 'cuda' if torch.cuda.is_available() else 'cpu'
A = torch.ones((10, 10), device=device)
B = torch.ones((10, 10), device=device)
C = torch.ones((10, 10), device=device)
D = A + B
E = D @ C
torch.testing.assert_close(torch.unique(E), torch.tensor((20,), device=E.device, dtype=E.dtype))
" >/dev/null 2>&1; then
_legacy_ok=true
fi
if [ "$_legacy_ok" = true ]; then
echo "✅ Legacy environment is healthy — migrating..."
mv "$STUDIO_HOME/.venv" "$VENV_DIR"
echo " Moved ~/.unsloth/studio/.venv → $VENV_DIR"
_MIGRATED=true
else
echo "⚠️ Legacy environment failed validation — creating fresh environment"
_invalid_venv="$STUDIO_HOME/.venv.invalid.$(date +%Y%m%d%H%M%S 2>/dev/null || echo time).$$"
mv "$STUDIO_HOME/.venv" "$_invalid_venv" 2>/dev/null || true
fi
fi
# If an Intel Mac has a stale 3.13 venv from a previous failed install, recreate
# (skip when the user explicitly chose a version via --python)
if [ "$SKIP_TORCH" = true ] && [ "$MAC_INTEL" = true ] && [ -z "$_USER_PYTHON" ] && [ -x "$VENV_DIR/bin/python" ]; then
_PY_MM=$("$VENV_DIR/bin/python" -c \
"import sys; print('{}.{}'.format(*sys.version_info[:2]))" 2>/dev/null || echo "")
if [ "$_PY_MM" != "3.12" ]; then
echo " Recreating Intel Mac environment with Python 3.12 (was $_PY_MM)..."
rm -rf "$VENV_DIR"
fi
fi
if [ ! -x "$VENV_DIR/bin/python" ]; then
step "venv" "creating Python ${PYTHON_VERSION} virtual environment"
substep "$VENV_DIR"
if [ "$OS" = "macos" ] && [ "$_ARCH" = "arm64" ] && [ -z "$_USER_PYTHON" ]; then
# Apple Silicon: request an arch-explicit arm64 CPython so uv cannot
# reuse a cached x86_64 (Rosetta) build. torch ships no macOS x86_64
# wheels since 2.2.2, so an x86_64 venv makes the torch install
# unresolvable. The arm64 guard below is kept as a backstop for
# migrated / pre-existing venvs.
run_install_cmd "create venv" uv venv "$VENV_DIR" \
--python "cpython-${PYTHON_VERSION}-macos-aarch64-none"
else
run_install_cmd "create venv" uv venv "$VENV_DIR" --python "$PYTHON_VERSION"
fi
fi
# Mark the freshly-created venv as Studio-owned so a partial install can be
# repaired by re-running install.sh; the env-mode deletion guard above accepts
# this marker as the primary sentinel.
if [ -x "$VENV_DIR/bin/python" ]; then
: > "$VENV_DIR/.unsloth-studio-owned" 2>/dev/null || true
fi
# Guard against two independent Apple Silicon venv problems, in order:
# 1. uv may create the venv from a cached x86_64 (Rosetta) Python when a
# same-version x86_64 build is already cached (often because uv itself
# is an x86_64 build). That venv reports x86_64 to wheel resolvers, and
# PyTorch ships no macOS wheels on the CPU index for any architecture,
# so the torch install can never resolve. Recreate it with an
# arch-explicit arm64 CPython.
# 2. Python 3.13.8 has a known torch import bug.
# The two are independent: a venv may be x86_64 and, once recreated, still
# land on 3.13.8. So we re-inspect the interpreter between the checks instead
# of chaining them with elif, guaranteeing both invariants hold on whatever
# venv we end up with. Skip both when the user explicitly chose an interpreter
# via --python.
if [ -z "$_USER_PYTHON" ] && [ "$OS" = "macos" ] && [ "$_ARCH" = "arm64" ]; then
_inspect_venv() {
"$VENV_DIR/bin/python" -c \
"import platform, sys; print(platform.machine(), '{}.{}.{}'.format(*sys.version_info[:3]))" \
2>/dev/null || echo " "
}
_info=$(_inspect_venv)
_VENV_ARCH=${_info%% *}
_PY_VER=${_info##* }
# If the interpreter could not be executed (an x86_64 venv python on a Mac
# without Rosetta installed), the probe above yields an empty arch. Fall
# back to reading the binary's Mach-O arch statically so the x86_64
# recreate below still triggers instead of letting uv fail later.
if [ -z "$_VENV_ARCH" ] && [ -x "$VENV_DIR/bin/python" ]; then
# uv symlinks bin/python to the base interpreter, so dereference with
# file -L (lipo already follows the link). Trailing || true keeps the
# installer alive under set -e when neither tool is present.
_archs=$(lipo -archs "$VENV_DIR/bin/python" 2>/dev/null \
|| file -L "$VENV_DIR/bin/python" 2>/dev/null || true)
case "$_archs" in
*arm64*) _VENV_ARCH=arm64 ;;
*x86_64*) _VENV_ARCH=x86_64 ;;
esac
fi
if [ "$_VENV_ARCH" = "x86_64" ]; then
echo " WARNING: venv was created with an x86_64 (Rosetta) Python on Apple Silicon."
echo " Recreating venv with native arm64 Python ${PYTHON_VERSION}..."
rm -rf "$VENV_DIR"
run_install_cmd "recreate venv (arm64)" uv venv "$VENV_DIR" \
--python "cpython-${PYTHON_VERSION}-macos-aarch64-none"
if [ -x "$VENV_DIR/bin/python" ]; then
: > "$VENV_DIR/.unsloth-studio-owned" 2>/dev/null || true
fi
# Re-inspect: the recreated arm64 venv may still be 3.13.8.
_info=$(_inspect_venv)
_VENV_ARCH=${_info%% *}
_PY_VER=${_info##* }
fi
if [ "$_PY_VER" = "3.13.8" ]; then
echo " WARNING: Python 3.13.8 has a known torch import bug."
echo " Recreating venv with Python 3.12..."
rm -rf "$VENV_DIR"
PYTHON_VERSION="3.12"
run_install_cmd "recreate venv" uv venv "$VENV_DIR" \
--python "cpython-${PYTHON_VERSION}-macos-aarch64-none"
if [ -x "$VENV_DIR/bin/python" ]; then
: > "$VENV_DIR/.unsloth-studio-owned" 2>/dev/null || true
fi
fi
fi
if [ -x "$VENV_DIR/bin/python" ]; then
step "venv" "using environment"
substep "${VENV_DIR}"
fi
# Default torch constraint -- tightened for Python 3.13+ on arm64 macOS
# (torch <2.6 has no cp313 macOS arm64 wheels)
TORCH_CONSTRAINT="torch>=2.4,<2.11.0"
if [ "$SKIP_TORCH" = false ] && [ "$OS" = "macos" ] && [ "$_ARCH" = "arm64" ]; then
_PY_MINOR=$("$VENV_DIR/bin/python" -c \
"import sys; print(sys.version_info.minor)" 2>/dev/null || echo "0")
if [ "$_PY_MINOR" -ge 13 ] 2>/dev/null; then
TORCH_CONSTRAINT="torch>=2.6,<2.11.0"
fi
fi
# ── Resolve repo root (for --local installs) ──
_REPO_ROOT="$(cd "$(dirname "$0" 2>/dev/null || echo ".")" && pwd)"
# ── Helper: find no-torch-runtime.txt (local repo or site-packages) ──
_find_no_torch_runtime() {
# Check local repo first (for --local installs)
if [ -f "$_REPO_ROOT/studio/backend/requirements/no-torch-runtime.txt" ]; then
echo "$_REPO_ROOT/studio/backend/requirements/no-torch-runtime.txt"
return
fi
# Check inside installed package
_rt=$(find "$VENV_DIR" -path "*/studio/backend/requirements/no-torch-runtime.txt" -print -quit 2>/dev/null || echo "")
if [ -n "$_rt" ]; then
echo "$_rt"
return
fi
}
# ── AMD ROCm GPU detection helper ──
# WSL2 ROCDXG: the system rocminfo enumerates the GPU over /dev/dxg only when
# HSA_ENABLE_DXG_DETECTION=1 (a no-op on bare metal), and /opt/rocm/bin can be
# off PATH outside login shells (the profile.d drop-in). Seed both before any
# rocminfo probe or a ROCDXG WSL host is misdetected as CPU-only.
_ensure_rocm_probe_env() {
export HSA_ENABLE_DXG_DETECTION="${HSA_ENABLE_DXG_DETECTION:-1}"
if ! command -v rocminfo >/dev/null 2>&1 && [ -x /opt/rocm/bin/rocminfo ]; then
PATH="$PATH:/opt/rocm/bin"
fi
}
# Returns 0 if an AMD GPU is present. Checks rocminfo, amd-smi, then sysfs
# KFD topology (env-var-independent fallback for when HIP/ROCR_VISIBLE_DEVICES hides devices).
# Always returns 1 (false) when an NVIDIA GPU is present: blocks every
# detection path (rocminfo, amd-smi, KFD sysfs) from producing a false
# positive on NVIDIA-only or NVIDIA-primary hosts, even when ROCm tools
# are co-installed.
_has_amd_rocm_gpu() {
_ensure_rocm_probe_env
if _has_usable_nvidia_gpu; then
return 1
fi
if command -v rocminfo >/dev/null 2>&1 && \
rocminfo 2>/dev/null | awk '/Name:[[:space:]]*gfx[1-9][0-9]/{found=1} END{exit !found}'; then
return 0
elif command -v amd-smi >/dev/null 2>&1 && \
amd-smi list 2>/dev/null | awk '/^GPU[[:space:]]*[:\[][[:space:]]*[0-9]/{ found=1 } END{ exit !found }'; then
return 0
elif [ -e /dev/kfd ] && \
awk 'FNR==1{ gpu=0; amd=0 } /gpu_id/{ gpu=($2+0>0) } /vendor_id/{ amd=($2==4098) } \
gpu && amd { found=1 } END{ exit !found }' \
/sys/class/kfd/kfd/topology/nodes/*/properties 2>/dev/null; then
# vendor_id 4098 = 0x1002 (AMD). NVIDIA open kernel module (driver
# 560+) can register KFD topology nodes with non-zero gpu_id but
# vendor_id 4318 (0x10DE). Require AMD vendor to avoid misrouting
# NVIDIA-only hosts to the ROCm install path.
return 0
fi
return 1
}
# ── Detect GPU and choose PyTorch index URL ──
# Mirrors Get-TorchIndexUrl in install.ps1.
# On CPU-only machines this returns the cpu index, avoiding the solver
# dead-end where --torch-backend=auto resolves to unsloth==2024.8.
get_torch_index_url() {
_base="${UNSLOTH_PYTORCH_MIRROR:-https://download.pytorch.org/whl}"
_base="${_base%/}"
# macOS: always CPU (no CUDA support)
case "$(uname -s)" in Darwin) echo "$_base/cpu"; return ;; esac
# Try nvidia-smi -- require the binary to actually list a usable GPU.
# Presence of the binary alone (container leftovers, stale driver
# packages) is not sufficient: otherwise an AMD-only host would
# silently install CUDA wheels.
_smi=""
_nvidia_detected=0
if _has_usable_nvidia_gpu; then
_nvidia_detected=1
if command -v nvidia-smi >/dev/null 2>&1; then
_smi="nvidia-smi"
elif [ -x "/usr/bin/nvidia-smi" ]; then
_smi="/usr/bin/nvidia-smi"
fi
fi
if [ "$_nvidia_detected" -eq 0 ]; then
# No NVIDIA GPU -- check for AMD ROCm GPU.
# PyTorch only publishes ROCm wheels for linux-x86_64; skip the
# ROCm branch entirely on aarch64 / arm64 / other architectures
# so non-x86_64 Linux hosts fall back cleanly to CPU wheels.
case "$(uname -m)" in
x86_64|amd64) : ;;
*) echo "$_base/cpu"; return ;;
esac
if ! _has_amd_rocm_gpu; then
echo "$_base/cpu"; return
fi
# AMD GPU confirmed -- detect ROCm version
_rocm_tag=""
_rocm_tag=$({ command -v amd-smi >/dev/null 2>&1 && \
amd-smi version 2>/dev/null | awk -F'ROCm version: ' \
'NF>1{gsub(/[^0-9.]/, "", $2); split($2,a,"."); print "rocm"a[1]"."a[2]; ok=1; exit} END{exit !ok}'; } || \
{ [ -r /opt/rocm/.info/version ] && \
awk -F. '{print "rocm"$1"."$2; exit}' /opt/rocm/.info/version; } || \
{ command -v hipconfig >/dev/null 2>&1 && \
hipconfig --version 2>/dev/null | awk 'NR==1 && /^[0-9]/{split($1,a,"."); if(a[1]+0>0){print "rocm"a[1]"."a[2]; found=1}} END{exit !found}'; } || \
{ command -v dpkg-query >/dev/null 2>&1 && \
ver="$(dpkg-query -W -f='${Version}\n' rocm-core 2>/dev/null)" && \
[ -n "$ver" ] && \
printf '%s\n' "$ver" | sed 's/^[0-9]*://' | awk -F'[.-]' '{print "rocm"$1"."$2; exit}'; } || \
{ command -v rpm >/dev/null 2>&1 && \
ver="$(rpm -q --qf '%{VERSION}\n' rocm-core 2>/dev/null)" && \
[ -n "$ver" ] && \
printf '%s\n' "$ver" | awk -F'[.-]' '{print "rocm"$1"."$2; exit}'; }) 2>/dev/null
# Validate _rocm_tag: must match "rocmX.Y" with major >= 1
case "$_rocm_tag" in
rocm[1-9]*.[0-9]*) : ;; # valid (major >= 1)
*) _rocm_tag="" ;; # reject malformed (empty, garbled, or major=0)
esac
if [ -n "$_rocm_tag" ]; then
# Minimum supported: ROCm 6.0 (no PyTorch wheels exist for older)
case "$_rocm_tag" in
rocm[1-5].*)
echo "[WARN] ROCm $_rocm_tag detected but PyTorch ROCm wheels require ROCm 6.0+ -- falling back to CPU-only PyTorch" >&2
echo "[WARN] Upgrade ROCm: https://rocm.docs.amd.com/en/latest/deploy/linux/index.html" >&2
echo "$_base/cpu"; return ;;
esac
# Supported tags; 6.5+ clips to rocm6.4, 7.3+ caps to rocm7.2.
# PyTorch publishes major.minor URLs only (no patch level), so
# rocm7.2.1 / rocm6.0.2 / etc. must normalise to rocm7.2 / rocm6.0.
case "$_rocm_tag" in
rocm6.0|rocm6.0.*) echo "$_base/rocm6.0" ;;
rocm6.1|rocm6.1.*) echo "$_base/rocm6.1" ;;
rocm6.2|rocm6.2.*) echo "$_base/rocm6.2" ;;
rocm6.3|rocm6.3.*) echo "$_base/rocm6.3" ;;
rocm6.4|rocm6.4.*) echo "$_base/rocm6.4" ;;
rocm7.0|rocm7.0.*) echo "$_base/rocm7.0" ;;
rocm7.1|rocm7.1.*) echo "$_base/rocm7.1" ;;
rocm7.2|rocm7.2.*) echo "$_base/rocm7.2" ;;
rocm6.*)
# ROCm 6.5+ (no published PyTorch wheels): clip down
# to the last supported 6.x wheel set.
echo "$_base/rocm6.4" ;;
*)
# ROCm 7.3+ (future): cap to rocm7.2 (latest known)
echo "$_base/rocm7.2" ;;
esac
return
fi
# AMD GPU confirmed by rocminfo/amd-smi but ROCm version could not be
# read from any source (amd-smi, /opt/rocm/.info/version, hipconfig,
# dpkg, rpm). Warn explicitly rather than silently installing CPU PyTorch.
echo "[WARN] AMD GPU detected but ROCm version could not be determined -- falling back to CPU-only PyTorch" >&2
echo "[WARN] Ensure one of the following is accessible: amd-smi, hipconfig, /opt/rocm/.info/version, rocm-core package" >&2
echo "[WARN] To install ROCm: https://rocm.docs.amd.com/en/latest/deploy/linux/index.html" >&2
echo "$_base/cpu"; return
fi
# Parse CUDA version from nvidia-smi output (POSIX-safe, no grep -P).
# Newer NVIDIA drivers (e.g. 610.x) print "CUDA UMD Version: X.Y" instead
# of the legacy "CUDA Version: X.Y"; accept both with two BRE expressions
# (POSIX sed does not support "?" without -E). The two patterns are
# mutually exclusive per line, so head -1 picks the first emitted match.
# Bound the call (a wedged nvidia-smi would otherwise hang here) and force
# the C locale for stable parsing. LC_ALL is exported inside this command
# substitution subshell so it reaches nvidia-smi through _run_bounded
# without depending on `env`; the export is scoped to the subshell.
_cuda_ver=$(export LC_ALL=C; _run_bounded "$_smi" 2>/dev/null \
| sed -n \
-e 's/.*CUDA UMD Version:[[:space:]]*\([0-9][0-9]*\.[0-9][0-9]*\).*/\1/p' \
-e 's/.*CUDA Version:[[:space:]]*\([0-9][0-9]*\.[0-9][0-9]*\).*/\1/p' \
| head -1)
if [ -z "$_cuda_ver" ]; then
echo "[WARN] Could not determine CUDA version from nvidia-smi, defaulting to cu126" >&2
echo "$_base/cu126"; return
fi
_major=${_cuda_ver%%.*}
_minor=${_cuda_ver#*.}
if [ "$_major" -ge 13 ]; then echo "$_base/cu130"
elif [ "$_major" -eq 12 ] && [ "$_minor" -ge 8 ]; then echo "$_base/cu128"
elif [ "$_major" -eq 12 ] && [ "$_minor" -ge 6 ]; then echo "$_base/cu126"
elif [ "$_major" -ge 12 ]; then echo "$_base/cu124"
elif [ "$_major" -ge 11 ]; then echo "$_base/cu118"
else echo "$_base/cpu"; fi
}
# ── Torch flavor helpers (to repair a stale CPU / wrong-CUDA wheel) ──
# torch.__version__ ($1) -> flavor tag (cuXXX / rocm / cpu); untagged wheel = cpu.
_torch_flavor_tag() {
case "$1" in
*+cu[0-9]*) printf '%s\n' "$1" | sed -n 's/.*+\(cu[0-9][0-9]*\).*/\1/p' ;;
*+rocm*) echo "rocm" ;;
*+cpu*) echo "cpu" ;;
"") echo "" ;;
*) echo "cpu" ;;
esac
}
# Expected tag from the index leaf ($1): cuXXX / cpu / rocm (rocmX.Y and gfx* ->
# rocm). Empty on an unknown leaf (odd mirror) so the repair safely no-ops.
_expected_torch_flavor_tag() {
_u="${1%/}"
_leaf="${_u##*/}"
case "$_leaf" in
cu[0-9]*) echo "$_leaf" ;;
cpu) echo "cpu" ;;
rocm*|gfx*) echo "rocm" ;;
*) echo "" ;;
esac
}
# Whether index ($1) supports a plain --index-url reinstall. pytorch.org cuXXX /
# rocmX.Y AND the repo.amd.com gfx* indexes are all PEP 503 simple indexes that uv
# resolves (torch + every transitive dep) via --index-url -- the same URLs the
# fresh-install paths above already use -- so a stale wheel is auto-repairable.
# Unknown/odd-mirror leaves -> no, so we warn rather than risk a wrong reinstall.
_torch_index_repairable() {
_u="${1%/}"
_leaf="${_u##*/}"
case "$_leaf" in
cu[0-9]*|rocm[0-9]*|gfx*) echo "yes" ;;
*) echo "no" ;;
esac
}
get_radeon_wheel_url() {
# Only meaningful on Linux. Picks a repo.radeon.com base URL whose listing
# contains torch wheels. Tries paths like rocm-rel-7.2.1/, rocm-rel-7.2/,
# rocm-rel-7.1.1/, rocm-rel-7.1/ (AMD publishes both M.m and M.m.p dirs).
# Accepts both X.Y and X.Y.Z host versions since /opt/rocm/.info/version
# and hipconfig --version can return either shape.
case "$(uname -s)" in Linux) ;; *) echo ""; return ;; esac
# Detect ROCm version (X.Y or X.Y.Z) -- try amd-smi, then
# /opt/rocm/.info/version, then hipconfig.
_full_ver=""
_full_ver=$({ command -v amd-smi >/dev/null 2>&1 && \
amd-smi version 2>/dev/null | awk -F'ROCm version: ' \
'NF>1{if(match($2,/[0-9]+\.[0-9]+(\.[0-9]+)?/)){print substr($2,RSTART,RLENGTH); ok=1; exit}} END{exit !ok}'; } || \
{ [ -r /opt/rocm/.info/version ] && \
awk 'match($0,/[0-9]+\.[0-9]+(\.[0-9]+)?/){print substr($0,RSTART,RLENGTH); found=1; exit} END{exit !found}' /opt/rocm/.info/version; } || \
{ command -v hipconfig >/dev/null 2>&1 && \
hipconfig --version 2>/dev/null | awk 'NR==1 && match($0,/[0-9]+\.[0-9]+(\.[0-9]+)?/){print substr($0,RSTART,RLENGTH); found=1} END{exit !found}'; }) 2>/dev/null
# Validate: must be X.Y or X.Y.Z with X >= 1
case "$_full_ver" in
[1-9]*.[0-9]*.[0-9]*) : ;; # X.Y.Z
[1-9]*.[0-9]*) : ;; # X.Y
*) echo ""; return ;;
esac
echo "https://repo.radeon.com/rocm/manylinux/rocm-rel-${_full_ver}/"
}
# ── Radeon repo wheel selection helpers ──────────────────────────────────────
# Fetches the Radeon repo directory listing once into _RADEON_LISTING (global).
# _RADEON_PYTAG holds the CPython tag for the running interpreter (e.g. cp312).
# _RADEON_BASE_URL holds the base URL for relative-href resolution.
_RADEON_LISTING=""
_RADEON_PYTAG=""
_RADEON_BASE_URL=""
_radeon_fetch_listing() {
# Usage: _radeon_fetch_listing BASE_URL
# Populates _RADEON_LISTING, _RADEON_PYTAG, _RADEON_BASE_URL.
_RADEON_BASE_URL="$1"
_RADEON_PYTAG=$("$_VENV_PY" -c "
import sys
print('cp{}{}'.format(sys.version_info.major, sys.version_info.minor))
" 2>/dev/null) || return 1
if command -v curl >/dev/null 2>&1; then
_RADEON_LISTING=$(curl -fsSL --max-time 20 "$_RADEON_BASE_URL" 2>/dev/null)
elif command -v wget >/dev/null 2>&1; then
_RADEON_LISTING=$(wget -qO- --timeout=20 "$_RADEON_BASE_URL" 2>/dev/null)
fi
[ -n "$_RADEON_LISTING" ] || return 1
}
_pick_radeon_wheel() {
# Usage: _pick_radeon_wheel PACKAGE_NAME [VERSION_PREFIX]
# Scans $_RADEON_LISTING for the newest wheel whose filename starts exactly
# with PACKAGE_NAME- (and optionally VERSION_PREFIX) and matches _RADEON_PYTAG + linux_x86_64.
# Prints the full URL (resolving relative hrefs against _RADEON_BASE_URL).
#
# POSIX-compliant pipeline: all href parsing, filtering, and version
# selection is done inside a single awk script rather than reaching
# for GNU extensions (grep -o, sort -V) that would break under BSD
# or BusyBox coreutils.
_pkg="$1"
_ver_prefix="${2:-}"
[ -n "$_RADEON_LISTING" ] || return 1
[ -n "$_RADEON_PYTAG" ] || return 1
_tag="$_RADEON_PYTAG"
_href=$(printf '%s\n' "$_RADEON_LISTING" \
| awk -v pkg="$_pkg" -v tag="$_tag" -v ver_prefix="$_ver_prefix" '
BEGIN { max_pad = ""; max_url = "" }
{
line = $0
while (match(line, /href="[^"]*"/)) {
# Strip the leading href=" (6 chars) and trailing " (1 char)
url = substr(line, RSTART + 6, RLENGTH - 7)
line = substr(line, RSTART + RLENGTH)
# Extract basename, strip query / fragment
n = split(url, p, "/")
base = p[n]
sub(/[?#].*/, "", base)
prefix = pkg "-" ver_prefix
# Match cpXY-cpXY or cpXY-abi3 with any linux x86_64
# platform tag (linux_x86_64, manylinux_2_28_x86_64,
# manylinux2014_x86_64, etc.)
if (substr(base, 1, length(prefix)) == prefix &&
index(base, "-" tag "-") > 0 &&
match(base, /x86_64\.whl$/)) {
# Extract the version component (first
# dotted-number run) and pad each piece so a
# plain lexical comparison gives us the newest.
if (match(base, /[0-9]+\.[0-9]+(\.[0-9]+)?/)) {
ver = substr(base, RSTART, RLENGTH)
m = split(ver, v, ".")
pad = ""
for (i = 1; i <= m; i++)
pad = pad sprintf("%08d", v[i])
if (pad > max_pad) {
max_pad = pad
max_url = url
}
}
}
}
}
END { if (max_url != "") print max_url }')
[ -z "$_href" ] && return 1
case "$_href" in
http*) printf '%s\n' "$_href" ;;
*) printf '%s\n' "${_RADEON_BASE_URL%/}/${_href#/}" ;;
esac
}
# ── ROCm-on-WSL bootstrap for AMD Strix Halo (gfx1151) ───────────────────────
# No-op everywhere except: WSL + GPU wanted + no usable GPU yet + /dev/dxg +
# Strix Halo APU. Every other config (NVIDIA, native-Linux ROCm, macOS, Windows,
# CPU, non-Strix WSL) skips it and normal detection runs unchanged. NEVER aborts
# the installer -- always returns 0. Runs the idempotent helper (ROCm 7.2 +
# librocdxg), then sources the env it persisted so detection finds the GPU.
# Export the ROCm-on-WSL env into this process and persist it to /etc/profile.d
# so non-login Studio/llama launches inherit it. Idempotent (writes only when
# the drop-in is missing); no-op without librocdxg, so never fires off WSL.
# /etc/profile.d is root-owned -- sudo-tee when not root, else ROCm vanishes
# after this shell on a non-root reinstall. Best-effort either way.
_persist_rocm_wsl_dropin() {
[ -e /opt/rocm/lib/librocdxg.so ] || [ -e /opt/rocm/lib64/librocdxg.so ] || return 0
_rw_rocm=/opt/rocm
export HSA_ENABLE_DXG_DETECTION=1
export TORCH_ROCM_AOTRITON_ENABLE_EXPERIMENTAL=1
case ":${PATH}:" in
*":${_rw_rocm}/bin:"*) ;;
*) export PATH="${_rw_rocm}/bin:${PATH}" ;;
esac
export LD_LIBRARY_PATH="${_rw_rocm}/lib:${LD_LIBRARY_PATH:-}"
[ -r /etc/profile.d/unsloth-rocm-wsl.sh ] && return 0
_rw_dropin="$(
printf '# >>> Unsloth ROCm-on-WSL (gfx1151) >>>\n'
printf 'export HSA_ENABLE_DXG_DETECTION=1\n'
printf 'export TORCH_ROCM_AOTRITON_ENABLE_EXPERIMENTAL=1\n'
printf 'export PATH="%s/bin:${PATH}"\n' "${_rw_rocm}"
printf 'export LD_LIBRARY_PATH="%s/lib:${LD_LIBRARY_PATH:-}"\n' "${_rw_rocm}"
printf '# <<< Unsloth ROCm-on-WSL (gfx1151) <<<\n'
)"
if [ "$(id -u)" = "0" ]; then
printf '%s\n' "$_rw_dropin" > /etc/profile.d/unsloth-rocm-wsl.sh 2>/dev/null || true
elif command -v sudo >/dev/null 2>&1; then
printf '%s\n' "$_rw_dropin" | sudo tee /etc/profile.d/unsloth-rocm-wsl.sh >/dev/null 2>&1 || true
fi
}
# _wsl_amd_gpu_name is defined earlier so both the reroute and this bootstrap can use it.
_maybe_bootstrap_rocm_wsl() {
[ "${OS:-}" = "wsl" ] || return 0
[ "${SKIP_TORCH:-false}" = "false" ] || return 0
[ "${UNSLOTH_SKIP_ROCM_WSL_SETUP:-0}" = "1" ] && return 0
# Leave any already-usable GPU completely alone (NVIDIA, or working ROCm).
if _has_usable_nvidia_gpu; then return 0; fi
# Usable ROCm = rocminfo enumerates a real GPU agent: gfx[1-9] (excludes gfx000,
# the CPU agent) and not the "gfx11-generic" fallback. awk consumes all input so
# rocminfo isn't SIGPIPE'd like `grep -q` under pipefail.
_ensure_rocm_probe_env
if command -v rocminfo >/dev/null 2>&1 && \
rocminfo 2>/dev/null | awk '/Name:[[:space:]]*gfx[1-9]/ && !/generic/{found=1} END{exit !found}'; then
# rocminfo may work only via the transient env _ensure_rocm_probe_env
# just set, which dies with the installer. Persist the drop-in so login
# shells (Studio, llama.cpp) inherit it -- else a reinstall over an
# existing /opt/rocm (uninstall keeps ROCm but drops it) loses the GPU.
_persist_rocm_wsl_dropin
return 0
fi
# WSL GPU passthrough device must exist (present on any WSL2 GPU host).
[ -e /dev/dxg ] || return 0
# Strix APUs show in /proc/cpuinfo (the CPU model); discrete cards don't, so also
# ask the Windows host. Either signal suffices; the bootstrap detects arch from rocminfo.
if ! grep -qiE 'Ryzen AI Max|Radeon 80[0-9]0S|Strix Halo' /proc/cpuinfo 2>/dev/null \
&& ! _wsl_amd_gpu_name >/dev/null 2>&1; then
return 0
fi
command -v bash >/dev/null 2>&1 || return 0
# Fast path: already configured (librocdxg present) but launched from a
# non-login shell so the persisted env wasn't loaded -- just load it.
if [ -e /opt/rocm/lib/librocdxg.so ] || [ -e /opt/rocm/lib64/librocdxg.so ]; then
if [ -r /etc/profile.d/unsloth-rocm-wsl.sh ]; then
# shellcheck disable=SC1091
. /etc/profile.d/unsloth-rocm-wsl.sh || true
else
# librocdxg present but the env drop-in is gone (e.g. a Studio
# uninstall removed it while keeping shared ROCm). Restore the env.
_persist_rocm_wsl_dropin
fi
return 0
fi
echo ""
_rw_gpu="$(_wsl_amd_gpu_name 2>/dev/null || true)"; [ -n "$_rw_gpu" ] || _rw_gpu="an AMD GPU"
substep "Detected ${_rw_gpu} in WSL with no ROCm runtime yet." "$C_WARN"
substep "Setting up ROCm-on-WSL (ROCm 7.2 + librocdxg) automatically to enable this GPU."
substep "One-time, uses sudo and a large download. (skip: re-run with UNSLOTH_SKIP_ROCM_WSL_SETUP=1)"
# Locate the helper: prefer the copy shipped beside install.sh, else fetch it.
_rw_helper="${_REPO_ROOT:-.}/scripts/install_rocm_wsl_strixhalo.sh"
_rw_tmp=""
if [ ! -r "$_rw_helper" ]; then
_rw_tmp="$(mktemp 2>/dev/null || echo /tmp/_unsloth_rocm_wsl.sh)"
if download "https://raw.githubusercontent.com/unslothai/unsloth/main/scripts/install_rocm_wsl_strixhalo.sh" "$_rw_tmp" 2>/dev/null; then
_rw_helper="$_rw_tmp"
else
substep "Could not fetch the ROCm-on-WSL helper; using CPU fallback." "$C_WARN"
[ -n "$_rw_tmp" ] && rm -f "$_rw_tmp"
return 0
fi
fi
# Consent: the narrow guarded case is exactly the GPU setup the user ran the
# installer for, so it proceeds AUTOMATICALLY by default (works with no TTY,
# e.g. `curl ... | sh`). Opt out via UNSLOTH_SKIP_ROCM_WSL_SETUP=1 (top of
# function). The Tauri app drives its own consent UI, so under TAURI_MODE it
# only runs when the app passes UNSLOTH_ROCM_WSL_AUTO=1; else surface and wait.
_rw_go=1
if [ "${TAURI_MODE:-false}" = "true" ] && [ "${UNSLOTH_ROCM_WSL_AUTO:-0}" != "1" ]; then
tauri_log "ROCM_WSL_AVAILABLE" "strixhalo"
substep "Enable the GPU from the desktop app (or set UNSLOTH_ROCM_WSL_AUTO=1)." "$C_WARN"
_rw_go=0
fi
if [ "$_rw_go" = "1" ]; then
# Helper does its own sudo + is idempotent. SMOKE_TEST=0: install.sh
# installs torch itself right after, into the real venv.
if UNSLOTH_WSL_SMOKE_TEST=0 bash "$_rw_helper"; then
# Pull the helper's persisted env into THIS shell so detection
# (rocminfo) now enumerates the GPU and routes to gfx1151.
if [ -r /etc/profile.d/unsloth-rocm-wsl.sh ]; then
# shellcheck disable=SC1091
. /etc/profile.d/unsloth-rocm-wsl.sh || true
fi
substep "ROCm-on-WSL ready; continuing with GPU install." "$C_OK"
else
substep "ROCm-on-WSL setup did not complete; falling back to CPU-only." "$C_WARN"
fi
fi
[ -n "$_rw_tmp" ] && rm -f "$_rw_tmp"
return 0
}
_maybe_bootstrap_rocm_wsl || true
TORCH_INDEX_URL=$(get_torch_index_url)
# Export the resolved torch backend ("cuda", "rocm", or "cpu") so that
# downstream scripts (setup.sh -> install_python_stack.py) know what was
# chosen here and can skip ROCm-specific repair steps on CUDA/CPU hosts.
# Classify on the FINAL path segment only: a custom UNSLOTH_PYTORCH_MIRROR
# whose base path happens to contain "rocm" or "gfx" must not mislabel a
# cu*/cpu index as ROCm (radeon repo URLs end in rocm-rel-X.Y/, Strix
# overrides in gfxNNNN/, so the trailing slash is stripped first).
_torch_index_leaf="${TORCH_INDEX_URL%/}"
_torch_index_leaf="${_torch_index_leaf##*/}"
case "$_torch_index_leaf" in
rocm*|gfx*) export UNSLOTH_TORCH_BACKEND="rocm" ;;
cpu) export UNSLOTH_TORCH_BACKEND="cpu" ;;
*) export UNSLOTH_TORCH_BACKEND="cuda" ;;
esac
# rocm7.2 ships torch 2.11.0 -- adjust the constraint to allow it.
# All other ROCm tags and CUDA stay within <2.11.0.
case "$TORCH_INDEX_URL" in
*/rocm7.2) TORCH_CONSTRAINT="torch>=2.11.0,<2.12.0" ;;
esac
# Auto-detect GPU for AMD ROCm based
# get_torch_index_url must have chosen */rocm*
# (gfx in rocminfo or amd-smi list). Then require rocminfo "Marketing Name:.*Radeon".
_amd_gpu_radeon=false
case "$TORCH_INDEX_URL" in
*/rocm*)
if _has_amd_rocm_gpu && command -v rocminfo >/dev/null 2>&1 && \
rocminfo 2>/dev/null | grep -q 'Marketing Name:.*Radeon'; then
_amd_gpu_radeon=true
fi
;;
esac
# ── Strix Halo / Strix Point: force rocm7.2 wheels, bypass Radeon repo ───────
# gfx1151 (Strix Halo) and gfx1150 (Strix Point) have a ROCm 7.1 driver bug
# that causes a segfault in torch._grouped_mm (moe_utils.py line 167).
# The Radeon repo now ships cp313 wheels for rocm-rel-7.1, so when
# _amd_gpu_radeon=true the installer silently lands on the broken combo.
# Detect these GPUs when TORCH_INDEX_URL is rocm7.1 and override to rocm7.2.
case "$TORCH_INDEX_URL" in
*/rocm7.1|*/rocm7.1.*)
# Collect every gfx token in rocminfo / amd-smi enumeration order
# (skip duplicates), then index by HIP_VISIBLE_DEVICES /
# ROCR_VISIBLE_DEVICES so a mixed Strix iGPU + non-Strix dGPU box
# where the user selected the dGPU does NOT get rerouted to the
# Strix per-gfx index.
_gfx_all=""
if command -v rocminfo >/dev/null 2>&1; then
_gfx_all=$(rocminfo 2>/dev/null | grep -oE 'gfx[1-9][0-9a-z]{2,3}')
fi
if [ -z "$_gfx_all" ] && command -v amd-smi >/dev/null 2>&1; then
_gfx_all=$(amd-smi list 2>/dev/null | grep -oE 'gfx[1-9][0-9a-z]{2,3}')
# PowerShell paths also probe `amd-smi static --asic`; mirror it
# so a host with hipinfo-less amd-smi reports the gfx target.
if [ -z "$_gfx_all" ]; then
_gfx_all=$(amd-smi static --asic 2>/dev/null | grep -oE 'gfx[1-9][0-9a-z]{2,3}')
fi
fi
_runtime_gfx=""
if [ -n "$_gfx_all" ]; then
_vis="${HIP_VISIBLE_DEVICES:-${ROCR_VISIBLE_DEVICES:-}}"
_idx=0
if [ -n "$_vis" ] && [ "$_vis" != "-1" ]; then
_first=${_vis%%,*}
case "$_first" in
''|*[!0-9]*) _idx=0 ;;
*) _idx=$_first ;;
esac
fi
_runtime_gfx=$(printf '%s\n' "$_gfx_all" | awk -v idx="$_idx" '
NF && !seen[$0]++ { vals[n++] = $0 }
END {
if (idx < 0 || idx >= n) idx = 0
if (n > 0) print vals[idx]
}')
fi
_strix_gfx=""
case "$_runtime_gfx" in
gfx1151|gfx1150) _strix_gfx="$_runtime_gfx" ;;
esac
if [ -n "$_strix_gfx" ]; then
echo "" >&2
echo " [WARN] $_strix_gfx (Strix) + ROCm 7.1 detected -- known _grouped_mm segfault" >&2
echo " [WARN] ROCm 7.1 wheels are broken for gfx1150/gfx1151 (moe_utils.py:167)" >&2
echo " [WARN] Routing to AMD arch-specific index (torch 2.11+rocm7.13 has the real fix)" >&2
echo " [WARN] Upgrade ROCm to 7.2+ to use the standard index:" >&2
echo " [WARN] https://rocm.docs.amd.com/en/latest/deploy/linux/index.html" >&2
echo "" >&2
# AMD's arch-specific index serves torch 2.11.0+rocm7.13.0 which has AMD's
# actual fix for the gfx1151/gfx1150 _grouped_mm kernel bug -- preferred
# over the pytorch.org rocm7.2 fallback because it exercises the real GPU
# kernel path. Set UNSLOTH_AMD_ROCM_MIRROR to override for air-gapped installs.
_amd_strix_base="${UNSLOTH_AMD_ROCM_MIRROR:-https://repo.amd.com/rocm/whl}"
# Strip ALL trailing slashes to match Python's .rstrip("/") -- a
# double-/triple-slash mirror URL would otherwise produce 404s on
# strict pip proxies (artifactory, sonatype).
while [ "${_amd_strix_base%/}" != "$_amd_strix_base" ]; do
_amd_strix_base="${_amd_strix_base%/}"
done
TORCH_INDEX_URL="${_amd_strix_base}/${_strix_gfx}/"
TORCH_CONSTRAINT="torch>=2.11.0,<2.12.0"
_amd_gpu_radeon=false
fi
;;
esac
_TAURI_TORCH_INDEX_FAMILY=$(_tauri_torch_index_family "$TORCH_INDEX_URL")
if [ "$_amd_gpu_radeon" = true ] && [ "$SKIP_TORCH" = false ]; then
_TAURI_TORCH_INDEX_FAMILY="radeon"
fi
_TAURI_GPU_BRANCH=$(_tauri_gpu_branch "$_TAURI_TORCH_INDEX_FAMILY" "$_amd_gpu_radeon")
tauri_diag_marker "$_TAURI_GPU_BRANCH" "$_TAURI_TORCH_INDEX_FAMILY"
# ── GPU detection summary (mirrors install.ps1 step "gpu" block) ──
if _has_usable_nvidia_gpu; then
step "gpu" "NVIDIA GPU detected"
elif case "$TORCH_INDEX_URL" in */rocm*|*/gfx*) true ;; *) false ;; esac; then
# Probe gfx arch for the display label, honouring HIP_VISIBLE_DEVICES
_ensure_rocm_probe_env
_gpu_disp_gfx_all=""
_gpu_disp_mkt=""
if command -v rocminfo >/dev/null 2>&1; then
_gpu_disp_gfx_all=$(rocminfo 2>/dev/null | grep -oE 'gfx[1-9][0-9a-z]{2,3}' || true)
_gpu_disp_mkt=$(rocminfo 2>/dev/null | awk -F': ' \
'/Marketing Name:/{gsub(/^[[:space:]]+|[[:space:]]+$/,"", $2); if($2){print $2; exit}}' || true)
fi
if [ -z "$_gpu_disp_gfx_all" ] && command -v amd-smi >/dev/null 2>&1; then
_gpu_disp_gfx_all=$(amd-smi list 2>/dev/null | grep -oE 'gfx[1-9][0-9a-z]{2,3}' || true)
[ -z "$_gpu_disp_gfx_all" ] && \
_gpu_disp_gfx_all=$(amd-smi static --asic 2>/dev/null | grep -oE 'gfx[1-9][0-9a-z]{2,3}' || true)
fi
if [ -z "$_gpu_disp_mkt" ] && command -v amd-smi >/dev/null 2>&1; then
_gpu_disp_mkt=$(amd-smi static --asic 2>/dev/null | awk -F'[:|]' \
'/[Mm]arket.?[Nn]ame/{gsub(/^[[:space:]]+|[[:space:]]+$/,"", $2); if($2){print $2; exit}}' || true)
fi
_gpu_vis="${HIP_VISIBLE_DEVICES:-${ROCR_VISIBLE_DEVICES:-}}"
_gpu_vis_idx=0
if [ -n "$_gpu_vis" ] && [ "$_gpu_vis" != "-1" ]; then
_gpu_first="${_gpu_vis%%,*}"
case "$_gpu_first" in ''|*[!0-9]*) ;; *) _gpu_vis_idx=$_gpu_first ;; esac
fi
_gpu_disp_gfx=$(printf '%s\n' "$_gpu_disp_gfx_all" | awk -v idx="$_gpu_vis_idx" \
'NF && !seen[$0]++ { a[n++]=$0 } END { if(idx>=n) idx=0; if(n>0) print a[idx] }')
# UNSLOTH_ROCM_GFX_ARCH env override (mirrors install.ps1)
if [ -n "${UNSLOTH_ROCM_GFX_ARCH:-}" ]; then
_gpu_disp_gfx="${UNSLOTH_ROCM_GFX_ARCH}"
substep "gfx arch from UNSLOTH_ROCM_GFX_ARCH env override: $_gpu_disp_gfx"
# Name-based arch inference when tools don't report gfx (mirrors install.ps1 nameArchTable)
elif [ -z "$_gpu_disp_gfx" ] && [ -n "$_gpu_disp_mkt" ]; then
# Kept in sync with the nameArchTable in install.ps1 / setup.ps1.
# gfx1102 matched BEFORE gfx1100 so the spaceless "RX 7700S" lands on
# gfx1102 (bash case has no negative lookahead like the PS tables).
case "$_gpu_disp_mkt" in
*"9070 XT"*|*9080*) _gpu_disp_gfx="gfx1201" ;; # RDNA 4
*9070*|*9060*) _gpu_disp_gfx="gfx1200" ;; # RDNA 4
*"8060S"*|*"8050S"*|*"8040S"*|*"Strix Halo"*|*"Ryzen AI Max"*|*"AI Max"*) _gpu_disp_gfx="gfx1151" ;; # RDNA 3.5 (Strix Halo: Radeon 8060S/8050S/8040S iGPU, Ryzen AI Max+)
*"890M"*|*"880M"*|*"860M"*|*"840M"*|*"Strix Point"*|*"Krackan"*|*"HX 37"*|*"AI 9 HX"*|*"AI 9 36"*|*"AI 7 35"*|*"AI 5 34"*|*"AI 7 PRO 35"*|*"AI 5 33"*) _gpu_disp_gfx="gfx1150" ;; # RDNA 3.5 (Strix/Krackan Point: Radeon 890M/880M iGPU, Ryzen AI 9 HX 370/375)
*"RX 7600"*|*"RX 7700S"*|*"RX 7650"*|*"PRO W7600"*|*"PRO W7500"*|*"PRO V710"*) _gpu_disp_gfx="gfx1102" ;; # RDNA 3 (Navi 33)
*"RX 7900"*|*"RX 7800"*|*"RX 7700"*|*"PRO W7900"*|*"PRO W7800"*|*"PRO W7700"*) _gpu_disp_gfx="gfx1100" ;; # RDNA 3 desktop / workstation (Navi 31)
*"780M"*|*"760M"*|*"740M"*|*"Phoenix"*|*"Hawk Point"*|*"Z1 Extreme"*|*"Z2 Extreme"*) _gpu_disp_gfx="gfx1103" ;; # RDNA 3 iGPU (Phoenix / Hawk Point)
*"RX 6900"*|*"RX 6800"*|*"RX 6750"*|*"RX 6700"*|*"PRO W6800"*|*"PRO W6900"*) _gpu_disp_gfx="gfx1030" ;; # RDNA 2 (Navi 21)
*"RX 6650"*|*"RX 6600"*|*"PRO W6600"*|*"PRO W6650"*) _gpu_disp_gfx="gfx1032" ;; # RDNA 2 (Navi 23)
*"RX 6500"*|*"RX 6400"*|*"RX 6300"*|*"PRO W6400"*|*"PRO W6500"*) _gpu_disp_gfx="gfx1034" ;; # RDNA 2 (Navi 24)
esac
if [ -n "$_gpu_disp_gfx" ]; then
substep "gfx arch inferred from GPU name: $_gpu_disp_gfx"
substep "Tip: set UNSLOTH_ROCM_GFX_ARCH=$_gpu_disp_gfx to skip inference next time"
fi
fi
# ROCm version via hipconfig, then amd-smi
_gpu_rocm_ver=""
if command -v hipconfig >/dev/null 2>&1; then
_gpu_rocm_ver=$(hipconfig --version 2>/dev/null | awk 'NR==1 && /^[0-9]/{print; exit}' || true)
fi
if [ -z "$_gpu_rocm_ver" ] && command -v amd-smi >/dev/null 2>&1; then
_gpu_rocm_ver=$(amd-smi version 2>/dev/null | awk -F'ROCm version: ' \
'NF>1{gsub(/[[:space:]]/,"", $2); print $2; exit}' || true)
fi
if [ -n "$_gpu_disp_gfx" ]; then
step "gpu" "AMD ROCm ($_gpu_disp_gfx)"
else
step "gpu" "AMD ROCm"
fi
_rocm_root="${ROCM_PATH:-${HIP_PATH:-/opt/rocm}}"
substep "ROCm: $_rocm_root"
[ -n "$_gpu_rocm_ver" ] && substep "hipconfig: $_gpu_rocm_ver"
[ -n "$_gpu_disp_mkt" ] && [ -n "$_gpu_disp_gfx" ] && substep "GPU: $_gpu_disp_mkt"
elif [ "$OS" = "macos" ] && [ "$_ARCH" = "arm64" ]; then
# Apple Silicon: PyTorch gets Metal (MPS) acceleration over unified memory, so not CPU-only.
step "gpu" "Apple Silicon (Metal, unified memory)"
else
step "gpu" "none (CPU-only)" "$C_WARN"
fi
# ── PyTorch wheel index note ──
case "$TORCH_INDEX_URL" in
*/cpu)
if [ "$SKIP_TORCH" = false ] && [ "$OS" != "macos" ]; then
substep "No GPU detected -- installing CPU-only PyTorch." "$C_WARN"
if [ "$OS" = "wsl" ]; then
# WSL + no GPU detected (detection above found nothing). Common
# cause: an AMD GPU whose ROCm-on-WSL runtime isn't exposed yet --
# /dev/dxg present (graphics) but no ROCm runtime.
_wsl_ubu_ver=""
[ -r /etc/os-release ] && _wsl_ubu_ver=$(. /etc/os-release 2>/dev/null; printf '%s' "${VERSION_ID:-}")
if [ -e /dev/dxg ]; then
substep "A GPU is plumbed into WSL (/dev/dxg) but no ROCm runtime is exposed to it." "$C_WARN"
fi
substep "For an AMD GPU, ROCm-on-WSL currently needs ALL of:"
substep " 1. AMD Adrenalin Edition 26.1.1+ on Windows (26.2.2+ for Strix Halo / Ryzen AI Max+)."
substep " Older drivers lack production ROCDXG/WSL support, so ROCm can't see the GPU."
substep " Get it from AMD (open in a browser -- direct downloads are referrer-gated):"
substep " https://www.amd.com/en/resources/support-articles/release-notes/RN-RAD-WIN-26-2-2.html"
substep " 2. ROCm 7.2.1 + librocdxg inside WSL (with HSA_ENABLE_DXG_DETECTION=1)."
substep " 3. A WSL distro AMD supports for ROCm -- Ubuntu 24.04 is the known-good one."
if [ -n "$_wsl_ubu_ver" ] && [ "$_wsl_ubu_ver" != "24.04" ]; then
substep " This distro is Ubuntu $_wsl_ubu_ver, which AMD may not support for ROCm-on-WSL yet." "$C_WARN"
fi
substep "Set up the GPU in WSL with a dedicated Ubuntu 24.04 distro:"
substep " wsl --install Ubuntu-24.04 # run in Windows PowerShell, then reopen WSL"
substep " # then re-run this installer inside Ubuntu-24.04 -- it will detect the GPU."
substep "AMD ROCm-on-WSL docs: https://rocm.docs.amd.com/projects/radeon-ryzen/en/latest/"
substep "Strix Halo (gfx1151): this installer auto-offers ROCm-on-WSL setup once the"
substep " driver is current; or run unsloth/scripts/install_rocm_wsl_strixhalo.sh yourself."
else
substep "AMD ROCm users: see https://docs.unsloth.ai/get-started/install-and-update/amd"
fi
substep "Re-run with --no-torch for GGUF-only (faster, no PyTorch):"
substep " curl -fsSL https://unsloth.ai/install.sh | sh -s -- --no-torch"
fi
;;
*/rocm*|*/gfx*)
if [ "$_amd_gpu_radeon" = true ]; then
substep "wheels: repo.radeon.com (Radeon)"
else
substep "wheels: $TORCH_INDEX_URL"
fi
;;
esac
# ── Install unsloth directly into the venv (no activation needed) ──
tauri_log "STEP" "Installing PyTorch"
_VENV_PY="$VENV_DIR/bin/python"
if [ "$_MIGRATED" = true ]; then
# Migrated env: force-reinstall unsloth+unsloth-zoo to ensure clean state
# in the new venv location, while preserving existing torch/CUDA
substep "upgrading unsloth in migrated environment..."
if [ "$SKIP_TORCH" = true ]; then
# No-torch: install unsloth + unsloth-zoo with --no-deps (current
# PyPI metadata still declares torch as a hard dep), then install
# runtime deps (typer, safetensors, transformers, etc.) with --no-deps
# to prevent transitive torch resolution.
run_install_cmd_retry "install unsloth (migrated no-torch)" uv pip install --python "$_VENV_PY" --no-deps \
--reinstall-package unsloth --reinstall-package unsloth-zoo \
"unsloth>=2026.7.2" "unsloth-zoo>=2026.7.2"
# Resolve pydantic WITH deps so pip pins pydantic-core to the
# matching version (no-torch-runtime.txt below is --no-deps).
# All transitive deps are torch-free.
run_install_cmd_retry "install pydantic (with deps for compatible core)" \
uv pip install --python "$_VENV_PY" pydantic
_NO_TORCH_RT="$(_find_no_torch_runtime)"
if [ -n "$_NO_TORCH_RT" ]; then
run_install_cmd_retry "install no-torch runtime deps" uv pip install --python "$_VENV_PY" --no-deps -r "$_NO_TORCH_RT"
fi
else
# Pin mlx-lm away from 0.31.3 here too: a curl-piped migration has no
# overrides file, so UV_OVERRIDE is unset and this positional is the only cover.
run_install_cmd_retry "install unsloth (migrated)" uv pip install --python "$_VENV_PY" \
--reinstall-package unsloth --reinstall-package unsloth-zoo \
"unsloth>=2026.7.2" "unsloth-zoo>=2026.7.2" ${_MLX_LM_EXCLUDE_ARG:-}
fi
if [ "$STUDIO_LOCAL_INSTALL" = true ]; then
substep "overlaying local repo (editable)..."
run_install_cmd "overlay local repo" uv pip install --python "$_VENV_PY" -e "$_REPO_ROOT" --no-deps
substep "overlaying unsloth-zoo from git main..."
run_install_cmd_retry "overlay unsloth-zoo (git main)" uv pip install --python "$_VENV_PY" \
--no-deps --reinstall-package unsloth-zoo \
"unsloth-zoo @ git+https://github.com/unslothai/unsloth-zoo"
fi
# AMD ROCm: install bitsandbytes even in migrated environments so
# existing ROCm installs gain the AMD bitsandbytes build without a
# fresh reinstall.
if [ "$SKIP_TORCH" = false ]; then
case "$TORCH_INDEX_URL" in
*/rocm*|*/gfx*)
_install_bnb_rocm "install bitsandbytes (AMD)" "$_VENV_PY"
# Repair ROCm torch if overwritten during migrated install
_has_hip=$("$_VENV_PY" -c "import torch; print(getattr(torch.version,'hip','') or '')" 2>/dev/null || true)
if [ -z "$_has_hip" ]; then
substep "repairing ROCm torch (overwritten by dependency resolution)..."
run_install_cmd_retry "repair ROCm torch" uv pip install --python "$_VENV_PY" \
"$TORCH_CONSTRAINT" torchvision torchaudio \
--index-url "$TORCH_INDEX_URL" \
--force-reinstall
fi
;;
esac
fi
elif [ -n "$TORCH_INDEX_URL" ]; then
# Fresh: Step 1 - install torch from explicit index (skip when --no-torch or Intel Mac)
if [ "$SKIP_TORCH" = true ]; then
substep "skipping PyTorch (--no-torch or Intel Mac x86_64)." "$C_WARN"
elif [ "$_amd_gpu_radeon" = true ]; then
_radeon_url=$(get_radeon_wheel_url)
if [ -n "$_radeon_url" ]; then
_radeon_listing_ok=false
if _radeon_fetch_listing "$_radeon_url" 2>/dev/null; then
_radeon_listing_ok=true
else
# Try shorter X.Y path (AMD publishes both X.Y.Z and X.Y dirs)
_radeon_url_short=$(printf '%s\n' "$_radeon_url" \
| sed 's|rocm-rel-\([0-9]*\)\.\([0-9]*\)\.[0-9]*/|rocm-rel-\1.\2/|')
if [ "$_radeon_url_short" != "$_radeon_url" ] && \
_radeon_fetch_listing "$_radeon_url_short" 2>/dev/null; then
_radeon_listing_ok=true
fi
fi
if [ "$_radeon_listing_ok" = true ]; then
# Require torch, torchvision, torchaudio wheels to all resolve
# from the Radeon listing. The repo often publishes multiple
# generations simultaneously, so picking the highest-version
# for each package independently can assemble a mismatched trio
# (e.g. torch 2.10 + torchvision 0.24). To prevent this,
# we identify the highest common minor version and downpair
# wheels if necessary to ensure a compatible set.
_torch_whl=$(_pick_radeon_wheel "torch" 2>/dev/null) || _torch_whl=""
_tv_whl=$(_pick_radeon_wheel "torchvision" 2>/dev/null) || _tv_whl=""
_ta_whl=$(_pick_radeon_wheel "torchaudio" 2>/dev/null) || _ta_whl=""
_tri_whl=$(_pick_radeon_wheel "triton" 2>/dev/null) || _tri_whl=""
# Check that torch and torchaudio share the same X.Y public
# version prefix, and that torchvision's minor correctly
# pairs with torch's minor (torchvision = torch.minor + 15
# since torch 2.4 -> torchvision 0.19 -> torch 2.9 ->
# torchvision 0.24).
#
# URL-decode each wheel name so %2B -> + before version
# extraction. Real Radeon wheel hrefs are percent-encoded
# (torch-2.10.0%2Brocm7.2.0...), so a plain [+-] terminator
# in the sed regex below would never match and
# _radeon_versions_match would stay false for every real
# listing, silently forcing a fallback to the generic
# ROCm index.
_extract_version() {
_whl=$1
_pkg=$2
if [ -n "$_whl" ]; then
_name=$(printf '%s' "${_whl##*/}" | sed 's/%2[Bb]/+/g')
printf '%s\n' "$_name" | sed -n "s|^${_pkg}-\([0-9][0-9]*\.[0-9][0-9]*\)\(\.[0-9][0-9]*\)\{0,1\}[+-].*|\1|p"
fi
}
_torch_ver=$(_extract_version "$_torch_whl" "torch")
_tv_ver=$(_extract_version "$_tv_whl" "torchvision")
_ta_ver=$(_extract_version "$_ta_whl" "torchaudio")
_radeon_versions_match=false
if [ -n "$_torch_ver" ] && [ -n "$_tv_ver" ] && [ -n "$_ta_ver" ]; then
_torch_minor=${_torch_ver#*.}
_ta_minor=${_ta_ver#*.}
_tv_minor=${_tv_ver#*.}
_tv_equiv_minor=$((_tv_minor - 15))
# Determine initial target minor (lowest common denominator)
_target_minor=$_torch_minor
[ "$_tv_equiv_minor" -lt "$_target_minor" ] && _target_minor=$_tv_equiv_minor
[ "$_ta_minor" -lt "$_target_minor" ] && _target_minor=$_ta_minor
# Loop downwards to find the first complete matching trio.
# This avoids aborting if the repo has gaps.
_attempts=0
while [ "$_attempts" -lt 5 ] && [ "$_target_minor" -ge 0 ]; do
_expected_tv_minor=$((_target_minor + 15))
_curr_torch=$(_pick_radeon_wheel "torch" "2.${_target_minor}." 2>/dev/null) || _curr_torch=""
_curr_tv=$(_pick_radeon_wheel "torchvision" "0.${_expected_tv_minor}." 2>/dev/null) || _curr_tv=""
_curr_ta=$(_pick_radeon_wheel "torchaudio" "2.${_target_minor}." 2>/dev/null) || _curr_ta=""
if [ -n "$_curr_torch" ] && [ -n "$_curr_tv" ] && [ -n "$_curr_ta" ]; then
# Extract versions from the wheels found in this iteration
_c_torch_ver=$(_extract_version "$_curr_torch" "torch")
_c_tv_ver=$(_extract_version "$_curr_tv" "torchvision")
_c_ta_ver=$(_extract_version "$_curr_ta" "torchaudio")
# Parse Major.Minor for validation
_c_torch_major=${_c_torch_ver%%.*}
_c_torch_minor=${_c_torch_ver#*.}
_c_ta_major=${_c_ta_ver%%.*}
_c_ta_minor=${_c_ta_ver#*.}
_c_tv_major=${_c_tv_ver%%.*}
_c_tv_minor=${_c_tv_ver#*.}
# Strict X.Y validation: allow patch versions to differ (e.g. torch 2.9.1 + vision 0.24.0)
# as long as the Major and Minor pairing is correct.
if [ "$_c_torch_major" = "$_c_ta_major" ] && \
[ "$_c_torch_minor" = "$_c_ta_minor" ] && \
[ "$_c_tv_major" = "0" ] && \
[ "$_c_tv_minor" = "$((_c_torch_minor + 15))" ]; then
_torch_whl=$_curr_torch
_tv_whl=$_curr_tv
_ta_whl=$_curr_ta
_tri_whl=""
_radeon_versions_match=true
break
fi
fi
_target_minor=$((_target_minor - 1))
_attempts=$((_attempts + 1))
done
fi
if [ -z "$_torch_whl" ] || [ -z "$_tv_whl" ] || [ -z "$_ta_whl" ] || \
[ "$_radeon_versions_match" != true ]; then
substep "[WARN] Radeon repo lacks a compatible wheel set for this Python; falling back to ROCm index ($TORCH_INDEX_URL)" "$C_WARN"
run_install_cmd_retry "install PyTorch" uv pip install --python "$_VENV_PY" \
"$TORCH_CONSTRAINT" torchvision torchaudio \
--index-url "$TORCH_INDEX_URL"
else
substep "installing PyTorch from Radeon repo (${_RADEON_BASE_URL})..."
# Pass explicit wheel URLs so the matched trio is
# installed together. --find-links lets uv discover
# the Radeon listing for any local lookup, and PyPI
# (not disabled) provides transitive deps like
# filelock / sympy / networkx which are not in the
# Radeon listing.
if [ -n "$_tri_whl" ]; then
run_install_cmd_retry "install triton + PyTorch" uv pip install --python "$_VENV_PY" \
--find-links "$_RADEON_BASE_URL" \
"$_tri_whl" "$_torch_whl" "$_tv_whl" "$_ta_whl"
else
run_install_cmd_retry "install PyTorch" uv pip install --python "$_VENV_PY" \
--find-links "$_RADEON_BASE_URL" \
"$_torch_whl" "$_tv_whl" "$_ta_whl"
fi
fi
else
substep "[WARN] Radeon repo unavailable; falling back to ROCm index ($TORCH_INDEX_URL)" "$C_WARN"
run_install_cmd_retry "install PyTorch" uv pip install --python "$_VENV_PY" \
"$TORCH_CONSTRAINT" torchvision torchaudio \
--index-url "$TORCH_INDEX_URL"
fi
else
substep "[WARN] Radeon GPU detected but could not detect full ROCm version; falling back to ROCm index" "$C_WARN"
run_install_cmd_retry "install PyTorch" uv pip install --python "$_VENV_PY" \
"$TORCH_CONSTRAINT" torchvision torchaudio \
--index-url "$TORCH_INDEX_URL"
fi
else
substep "installing PyTorch ($TORCH_INDEX_URL)..."
run_install_cmd_retry "install PyTorch" uv pip install --python "$_VENV_PY" "$TORCH_CONSTRAINT" torchvision torchaudio \
--index-url "$TORCH_INDEX_URL"
fi
# AMD ROCm: install bitsandbytes (once, after torch, for all ROCm paths).
# Gate on SKIP_TORCH=false so a user running with --no-torch on a ROCm
# host stays in GGUF-only mode rather than pulling in bitsandbytes,
# which is only useful once torch is present for training.
if [ "$SKIP_TORCH" = false ]; then
case "$TORCH_INDEX_URL" in
*/rocm*|*/gfx*)
_install_bnb_rocm "install bitsandbytes (AMD)" "$_VENV_PY"
;;
esac
fi
# Fresh: Step 2 - install unsloth, preserving pre-installed torch
tauri_log "STEP" "Installing Unsloth"
substep "installing unsloth (this may take a few minutes)..."
if [ "$SKIP_TORCH" = true ]; then
# No-torch: install unsloth + unsloth-zoo with --no-deps, then
# runtime deps (typer, safetensors, transformers, etc.) with --no-deps.
run_install_cmd_retry "install unsloth (no-torch)" uv pip install --python "$_VENV_PY" --no-deps \
--upgrade-package unsloth --upgrade-package unsloth-zoo \
"unsloth>=2026.7.2" "unsloth-zoo>=2026.7.2"
# Same pydantic-with-deps trick as the migrated branch.
run_install_cmd_retry "install pydantic (with deps for compatible core)" \
uv pip install --python "$_VENV_PY" pydantic
_NO_TORCH_RT="$(_find_no_torch_runtime)"
if [ -n "$_NO_TORCH_RT" ]; then
run_install_cmd_retry "install no-torch runtime deps" uv pip install --python "$_VENV_PY" --no-deps -r "$_NO_TORCH_RT"
fi
if [ "$STUDIO_LOCAL_INSTALL" = true ]; then
substep "overlaying local repo (editable)..."
run_install_cmd "overlay local repo" uv pip install --python "$_VENV_PY" -e "$_REPO_ROOT" --no-deps
substep "overlaying unsloth-zoo from git main..."
run_install_cmd_retry "overlay unsloth-zoo (git main)" uv pip install --python "$_VENV_PY" \
--no-deps --reinstall-package unsloth-zoo \
"unsloth-zoo @ git+https://github.com/unslothai/unsloth-zoo"
fi
elif [ "$STUDIO_LOCAL_INSTALL" = true ]; then
run_install_cmd_retry "install unsloth (local)" uv pip install --python "$_VENV_PY" \
--upgrade-package unsloth "unsloth>=2026.7.2" "unsloth-zoo>=2026.7.2"
substep "overlaying local repo (editable)..."
run_install_cmd "overlay local repo" uv pip install --python "$_VENV_PY" -e "$_REPO_ROOT" --no-deps
substep "overlaying unsloth-zoo from git main..."
run_install_cmd_retry "overlay unsloth-zoo (git main)" uv pip install --python "$_VENV_PY" \
--no-deps --reinstall-package unsloth-zoo \
"unsloth-zoo @ git+https://github.com/unslothai/unsloth-zoo"
else
run_install_cmd_retry "install unsloth" uv pip install --python "$_VENV_PY" \
--upgrade-package unsloth -- "$PACKAGE_NAME" ${_MLX_LM_EXCLUDE_ARG:-}
fi
# AMD ROCm: repair torch if the unsloth/unsloth-zoo install pulled in
# CUDA torch from PyPI, overwriting the ROCm wheels installed in Step 1.
if [ "$SKIP_TORCH" = false ]; then
case "$TORCH_INDEX_URL" in
*/rocm*|*/gfx*)
_has_hip=$("$_VENV_PY" -c "import torch; print(getattr(torch.version,'hip','') or '')" 2>/dev/null || true)
if [ -z "$_has_hip" ]; then
substep "repairing ROCm torch (overwritten by dependency resolution)..."
run_install_cmd_retry "repair ROCm torch" uv pip install --python "$_VENV_PY" \
"$TORCH_CONSTRAINT" torchvision torchaudio \
--index-url "$TORCH_INDEX_URL" \
--force-reinstall
fi
;;
esac
fi
else
# Fallback: GPU detection failed to produce a URL -- let uv resolve torch
tauri_log "STEP" "Installing Unsloth"
substep "installing unsloth (this may take a few minutes)..."
if [ "$STUDIO_LOCAL_INSTALL" = true ]; then
run_install_cmd_retry "install unsloth (auto torch backend)" uv pip install --python "$_VENV_PY" "unsloth-zoo>=2026.7.2" "unsloth>=2026.7.2" --torch-backend=auto
substep "overlaying local repo (editable)..."
run_install_cmd "overlay local repo" uv pip install --python "$_VENV_PY" -e "$_REPO_ROOT" --no-deps
substep "overlaying unsloth-zoo from git main..."
run_install_cmd_retry "overlay unsloth-zoo (git main)" uv pip install --python "$_VENV_PY" \
--no-deps --reinstall-package unsloth-zoo \
"unsloth-zoo @ git+https://github.com/unslothai/unsloth-zoo"
else
run_install_cmd_retry "install unsloth (auto torch backend)" uv pip install --python "$_VENV_PY" --torch-backend=auto -- "$PACKAGE_NAME"
fi
fi
# ── Enforce the installed torch flavor matches the detected GPU build ──
# PEP 440 ignores the +cpu/+cuXXX/+rocm local label in a version range, so uv
# keeps a stale torch==X+cpu against a GPU index and the venv silently trains on
# CPU. Reinstall the right wheel triplet when a GPU build is expected; if it
# can't be reinstalled, warn loudly. --no-torch / CPU-only / macOS: no-op.
if [ "$SKIP_TORCH" = false ] && [ -n "${TORCH_INDEX_URL:-}" ]; then
_expected_torch_tag=$(_expected_torch_flavor_tag "$TORCH_INDEX_URL")
# Only act when a GPU build is expected (cuXXX / rocm); cpu and unknown skip.
if [ -n "$_expected_torch_tag" ] && [ "$_expected_torch_tag" != "cpu" ]; then
_installed_torch_ver=$("$_VENV_PY" -c "import torch; print(torch.__version__)" 2>/dev/null || true)
_installed_torch_tag=""
[ -n "$_installed_torch_ver" ] && _installed_torch_tag=$(_torch_flavor_tag "$_installed_torch_ver")
# Repair when flavor is wrong AND the index is plain --index-url reinstallable
# (cuXXX / rocmX.Y / repo.amd.com gfx*); an unknown mirror leaf -> warn only.
if [ -n "$_installed_torch_tag" ] && [ "$_installed_torch_tag" != "$_expected_torch_tag" ] \
&& [ "$(_torch_index_repairable "$TORCH_INDEX_URL")" = "yes" ]; then
substep "PyTorch flavor mismatch (installed $_installed_torch_tag, need $_expected_torch_tag) -- reinstalling correct build..."
run_install_cmd "reinstall PyTorch ($_expected_torch_tag)" uv pip install --python "$_VENV_PY" \
"$TORCH_CONSTRAINT" torchvision torchaudio \
--index-url "$TORCH_INDEX_URL" \
--reinstall-package torch --reinstall-package torchvision --reinstall-package torchaudio
_installed_torch_ver=$("$_VENV_PY" -c "import torch; print(torch.__version__)" 2>/dev/null || true)
_installed_torch_tag=""
[ -n "$_installed_torch_ver" ] && _installed_torch_tag=$(_torch_flavor_tag "$_installed_torch_ver")
fi
# Safety net (incl. AMD/WSL): GPU build expected but still CPU -> warn loudly.
if [ "$_installed_torch_tag" = "cpu" ]; then
substep "[WARN] PyTorch is CPU-only but a $_expected_torch_tag GPU build was expected for this machine." "$C_WARN"
substep "[WARN] Training and GPU inference will run on CPU until this is fixed." "$C_WARN"
substep "[WARN] Re-run this installer, or reinstall the GPU build manually:" "$C_WARN"
substep "[WARN] uv pip install --python \"$_VENV_PY\" \"$TORCH_CONSTRAINT\" torchvision torchaudio --index-url $TORCH_INDEX_URL --reinstall-package torch --reinstall-package torchvision --reinstall-package torchaudio" "$C_WARN"
fi
fi
fi
# ── Run studio setup ──
tauri_log "STEP" "Running Studio setup"
# When --local, use the repo's own setup.sh directly.
# Otherwise, find it inside the installed package.
SETUP_SH=""
if [ "$STUDIO_LOCAL_INSTALL" = true ] && [ -f "$_REPO_ROOT/studio/setup.sh" ]; then
SETUP_SH="$_REPO_ROOT/studio/setup.sh"
fi
if [ -z "$SETUP_SH" ] || [ ! -f "$SETUP_SH" ]; then
SETUP_SH=$("$VENV_DIR/bin/python" -c "
import importlib.resources
print(importlib.resources.files('studio') / 'setup.sh')
" 2>/dev/null || echo "")
fi
# Fallback: search site-packages
if [ -z "$SETUP_SH" ] || [ ! -f "$SETUP_SH" ]; then
SETUP_SH=$(find "$VENV_DIR" -path "*/studio/setup.sh" -print -quit 2>/dev/null || echo "")
fi
if [ -z "$SETUP_SH" ] || [ ! -f "$SETUP_SH" ]; then
tauri_log "ERROR" "Could not find studio/setup.sh in the installed package"
echo "❌ ERROR: Could not find studio/setup.sh in the installed package."
exit 1
fi
# Ensure the venv's Python is on PATH so setup.sh can find it.
VENV_ABS_BIN="$(cd "$VENV_DIR/bin" && pwd)"
if [ -n "$VENV_ABS_BIN" ]; then
export PATH="$VENV_ABS_BIN:$PATH"
fi
if ! command -v bash >/dev/null 2>&1; then
step "setup" "bash is required to run studio setup" "$C_ERR"
substep "Please install bash and re-run install.sh"
exit 1
fi
step "setup" "running unsloth studio update..."
_SKIP_BASE=1
_SETUP_EXIT=0
# Tauri desktop app bundles its own frontend — skip Node/npm/frontend build
_SKIP_FRONTEND=0
if [ "$TAURI_MODE" = true ]; then
_SKIP_FRONTEND=1
fi
# Prepend UNSLOTH_STUDIO_HOME=$STUDIO_HOME to "$@" for env-override installs
# without word-splitting on whitespace paths.
_run_setup_with_studio_home() {
if [ "$_STUDIO_HOME_REDIRECT" = "env" ]; then
UNSLOTH_STUDIO_HOME="$STUDIO_HOME" "$@"
else
"$@"
fi
}
if [ -n "$_WITH_LLAMA_CPP_DIR" ]; then
if [ ! -d "$_WITH_LLAMA_CPP_DIR" ]; then
echo "[ERROR] --with-llama-cpp-dir path does not exist: $_WITH_LLAMA_CPP_DIR" >&2
exit 1
fi
_WITH_LLAMA_CPP_DIR="$(CDPATH= cd -P -- "$_WITH_LLAMA_CPP_DIR" && pwd -P)"
fi
if [ "$STUDIO_LOCAL_INSTALL" = true ]; then
_run_setup_with_studio_home env \
SKIP_STUDIO_BASE="$_SKIP_BASE" \
SKIP_STUDIO_FRONTEND="$_SKIP_FRONTEND" \
STUDIO_PACKAGE_NAME="$PACKAGE_NAME" \
STUDIO_LOCAL_INSTALL=1 \
STUDIO_LOCAL_REPO="$_REPO_ROOT" \
UNSLOTH_NO_TORCH="$SKIP_TORCH" \
UNSLOTH_LOCAL_LLAMA_CPP_DIR="$_WITH_LLAMA_CPP_DIR" \
bash "$SETUP_SH" </dev/null || _SETUP_EXIT=$?
else
# Explicitly reset STUDIO_LOCAL_INSTALL / STUDIO_LOCAL_REPO so a stale
# value inherited from the parent shell (e.g. a previous --local run in
# the same session) does not silently flip a normal install onto the
# local-dev path in setup.sh and install_python_stack.py. Mirrors the
# reset already done in install.ps1 for PowerShell.
_run_setup_with_studio_home env \
SKIP_STUDIO_BASE="$_SKIP_BASE" \
SKIP_STUDIO_FRONTEND="$_SKIP_FRONTEND" \
STUDIO_PACKAGE_NAME="$PACKAGE_NAME" \
STUDIO_LOCAL_INSTALL=0 \
STUDIO_LOCAL_REPO= \
UNSLOTH_NO_TORCH="$SKIP_TORCH" \
UNSLOTH_LOCAL_LLAMA_CPP_DIR="$_WITH_LLAMA_CPP_DIR" \
bash "$SETUP_SH" </dev/null || _SETUP_EXIT=$?
fi
# ── Make 'unsloth' available via $_LOCAL_BIN (resolved earlier) ──
# Env-mode: $_LOCAL_BIN is $STUDIO_HOME/bin; skip shell-rc PATH append so we
# don't pollute the user's profile with a workspace-scoped path.
mkdir -p "$_LOCAL_BIN"
# ln -sf into an existing dir creates link inside it. Refuse to delete a
# real directory at the shim path -- that could destroy unrelated user data.
_shim_path="$_LOCAL_BIN/unsloth"
if [ -d "$_shim_path" ] && [ ! -L "$_shim_path" ]; then
echo "ERROR: $_shim_path is a directory; refusing to delete it." >&2
echo " Move or remove it manually, then re-run the installer." >&2
exit 1
fi
# why: -sfn is atomic and -n prevents descent into a symlink-to-directory at
# the shim path (the directory guard above already rejects a real directory).
ln -sfn "$VENV_DIR/bin/unsloth" "$_shim_path"
case ":$PATH:" in
*":$_LOCAL_BIN:"*) ;; # already on PATH
*)
if [ "$_STUDIO_HOME_REDIRECT" = "env" ]; then
export PATH="$_LOCAL_BIN:$PATH"
step "path" "exported $_LOCAL_BIN for this session (no rc-file append in env-override mode)"
else
_SHELL_PROFILE=""
if [ -n "${ZSH_VERSION:-}" ] || [ "$(basename "${SHELL:-}")" = "zsh" ]; then
_SHELL_PROFILE="$HOME/.zshrc"
elif [ -f "$HOME/.bashrc" ]; then
_SHELL_PROFILE="$HOME/.bashrc"
elif [ -f "$HOME/.profile" ]; then
_SHELL_PROFILE="$HOME/.profile"
fi
if [ -n "$_SHELL_PROFILE" ]; then
if ! grep -q '\.local/bin' "$_SHELL_PROFILE" 2>/dev/null; then
echo '' >> "$_SHELL_PROFILE"
echo '# Added by Unsloth installer' >> "$_SHELL_PROFILE"
echo 'export PATH="$HOME/.local/bin:$PATH"' >> "$_SHELL_PROFILE"
step "path" "added ~/.local/bin to PATH in $_SHELL_PROFILE"
fi
fi
export PATH="$_LOCAL_BIN:$PATH"
fi
;;
esac
# Non-Tauri installs keep shortcuts even if setup reports failure.
# create_studio_shortcuts gates persistent menu shortcuts on env-mode;
# launcher + studio.conf + icon are always written.
if [ "$TAURI_MODE" != true ]; then
create_studio_shortcuts "$VENV_ABS_BIN/unsloth" "$OS"
fi
# If setup.sh failed, report and exit now.
# PATH and shortcuts are already set up so the user can fix and retry.
if [ "$_SETUP_EXIT" -ne 0 ]; then
echo ""
step "error" "studio setup failed (exit code $_SETUP_EXIT)" "$C_ERR"
echo ""
exit "$_SETUP_EXIT"
fi
_commit_studio_venv_replacement
# ── Tauri mode: done, skip shortcuts and auto-launch ──
if [ "$TAURI_MODE" = true ]; then
tauri_log "DONE" ""
exit 0
fi
# Warn if another 'unsloth' wins on PATH (different venv, system pip, etc).
# Users typing `unsloth studio` later would hit that binary instead of the
# one just installed; the runtime now falls back via UNSLOTH_STUDIO_HOME
# but the absolute path is still the most reliable launch.
# Uses the venv python (just created above) for path canonicalization so
# this works on macOS (BSD readlink has no -f) as well as Linux/WSL.
_installed_bin="$VENV_DIR/bin/unsloth"
_path_unsloth=$(command -v unsloth 2>/dev/null || true)
if [ -n "$_path_unsloth" ] && [ -x "$VENV_DIR/bin/python" ]; then
# Canonicalize via the venv python (BSD readlink lacks -f on macOS).
# If either side fails to resolve, skip the check entirely rather than
# comparing raw paths (which would false-trigger on symlink targets).
_canon() {
"$VENV_DIR/bin/python" -c \
'import os, sys; print(os.path.realpath(sys.argv[1]))' \
"$1" 2>/dev/null
}
_installed_real=$(_canon "$_installed_bin")
_path_real=$(_canon "$_path_unsloth")
if [ -n "$_installed_real" ] && [ -n "$_path_real" ] \
&& [ "$_installed_real" != "$_path_real" ]; then
echo ""
step "warning" "another 'unsloth' wins on PATH:" "$C_WARN"
substep "$_path_unsloth"
substep "this installer's binary is at:"
substep "$_installed_bin"
substep "to use this install, run the absolute path above,"
substep "alias unsloth, or put its dir earlier on PATH."
echo ""
fi
fi
echo ""
printf " ${C_TITLE}%s${C_RST}\n" "Unsloth Studio installed!"
printf " ${C_DIM}%s${C_RST}\n" "$RULE"
echo ""
# In interactive terminals, ask the user before starting Studio.
# In non-interactive environments (Docker, CI, cloud-init) just print instructions.
if [ -t 1 ]; then
echo ""
printf " Start Unsloth Studio now? [Y/n] "
# No readable answer (closed/EOF tty) defaults to no; Enter is still yes.
if [ -r /dev/tty ]; then
read -r _reply </dev/tty || _reply="n"
else
_reply="n"
fi
case "${_reply:-y}" in
[Yy]*|"")
step "launch" "starting Unsloth Studio..."
# Detach stdin from the `curl | sh` pipe: as a foreground server the
# studio would otherwise drain the rest of this piped script, leaving
# the shell to die parsing the now-truncated tail (`unexpected fi`).
# trap '' INT: wait for studio's shutdown instead of racing the prompt.
# Subshell resets INT so the child still gets Ctrl+C (no inherited ignore).
trap '' INT
# `|| ...`: capture the exit code without set -e aborting first.
_LAUNCH_EXIT=0
(trap - INT; exec "$VENV_DIR/bin/unsloth" studio -p 8888 </dev/null) || _LAUNCH_EXIT=$?
if [ "$_LAUNCH_EXIT" -ne 0 ] && [ "$_MIGRATED" = true ]; then
echo ""
echo "⚠️ Unsloth Studio failed to start after migration."
echo " Your migrated environment may be incompatible."
echo " To fix, remove the environment and reinstall:"
echo ""
echo " rm -rf $VENV_DIR"
echo " curl -fsSL https://unsloth.ai/install.sh | sh"
echo ""
fi
exit "$_LAUNCH_EXIT"
;;
*)
step "launch" "to start later, run:"
substep "unsloth studio -p 8888"
substep "(add -H 0.0.0.0 to allow network / cloud access)"
substep "(add --secure for a public Cloudflare HTTPS link; anyone with the API key can run code)"
echo ""
;;
esac
else
step "launch" "manual commands:"
# Single-quote-escape so paths with spaces / apostrophes copy-paste cleanly.
_li_shim_q="'$(printf '%s' "${_LOCAL_BIN}/unsloth" | sed "s/'/'\\\\''/g")'"
_li_act_q="'$(printf '%s' "${VENV_DIR}/bin/activate" | sed "s/'/'\\\\''/g")'"
if [ "$_STUDIO_HOME_REDIRECT" = "env" ]; then
# Env-mode skips the rc PATH append, so print the absolute shim path.
substep "$_li_shim_q studio -p 8888"
substep "or activate env first:"
substep "source $_li_act_q"
substep "unsloth studio -p 8888"
else
substep "unsloth studio -p 8888"
substep "or activate env first:"
substep "source $_li_act_q"
substep "unsloth studio -p 8888"
fi
substep "(add -H 0.0.0.0 to allow network / cloud access)"
substep "(add --secure for a public Cloudflare HTTPS link; anyone with the API key can run code)"
echo ""
fi