def testStdinRedirect(self):
waiter = process.Waiter()
fd_state = process.FdState()
PATH = '_tmp/one-two.txt'
# Write two lines
with open(PATH, 'w') as f:
f.write('one\ntwo\n')
# Should get the first line twice, because Pop() closes it!
r = runtime.PathRedirect(Id.Redir_Less, 0, PATH)
fd_state.Push([r], waiter)
#line1 = sys.stdin.readline()
line1 = builtin.ReadLineFromStdin()
fd_state.Pop()
fd_state.Push([r], waiter)
#line2 = sys.stdin.readline()
line2 = builtin.ReadLineFromStdin()
fd_state.Pop()
# sys.stdin.readline() would erroneously return 'two' because of buffering.
self.assertEqual('one\n', line1)
self.assertEqual('one\n', line2)
def testStdinRedirect(self):
waiter = process.Waiter(_JOB_STATE, _EXEC_OPTS)
fd_state = process.FdState(_ERRFMT, _JOB_STATE)
PATH = '_tmp/one-two.txt'
# Write two lines
with open(PATH, 'w') as f:
f.write('one\ntwo\n')
# Should get the first line twice, because Pop() closes it!
r = redirect(Id.Redir_Less, runtime.NO_SPID, redir_loc.Fd(0),
redirect_arg.Path(PATH))
fd_state.Push([r], waiter)
line1, _ = builtin_misc.ReadLineFromStdin('\n')
fd_state.Pop()
fd_state.Push([r], waiter)
line2, _ = builtin_misc.ReadLineFromStdin('\n')
fd_state.Pop()
# sys.stdin.readline() would erroneously return 'two' because of buffering.
self.assertEqual('one', line1)
self.assertEqual('one', line2)
def __init__(self, mem, fd_state, status_lines, funcs, readline, completion,
comp_lookup, exec_opts, arena):
"""
Args:
mem: Mem instance for storing variables
fd_state: FdState() for managing descriptors
status_lines: shared with completion. TODO: Move this to the end.
funcs: registry of functions (these names are completed)
completion: completion module, if available
comp_lookup: completion pattern/action
exec_opts: ExecOpts
arena: for printing error locations
"""
self.mem = mem
self.fd_state = fd_state
self.status_lines = status_lines
# function space is different than var space. Not hierarchical.
self.funcs = funcs
self.completion = completion
# Completion hooks, set by 'complete' builtin.
self.comp_lookup = comp_lookup
# This is for shopt and set -o. They are initialized by flags.
self.exec_opts = exec_opts
self.exec_opts.readline = readline
self.arena = arena
self.splitter = legacy.SplitContext(self.mem)
self.word_ev = word_eval.NormalWordEvaluator(
mem, exec_opts, self.splitter, self)
self.arith_ev = expr_eval.ArithEvaluator(mem, exec_opts, self.word_ev)
self.bool_ev = expr_eval.BoolEvaluator(mem, exec_opts, self.word_ev)
self.traps = {} # signal/hook name -> callable
self.nodes_to_run = [] # list of nodes, appended to by signal handlers
self.dir_stack = state.DirStack()
# TODO: Pass these in from main()
self.aliases = {} # alias name -> string
self.targets = [] # make syntax enters stuff here -- Target()
# metaprogramming or regular target syntax
# Whether argv[0] is make determines if it is executed
self.waiter = process.Waiter()
# sleep 5 & puts a (PID, job#) entry here. And then "jobs" displays it.
self.job_state = process.JobState()
self.loop_level = 0 # for detecting bad top-level break/continue
self.tracer = Tracer(exec_opts, mem, self.word_ev)
self.check_command_sub_status = False # a hack
def __init__(self, mem, fd_state, funcs, comp_lookup, exec_opts, parse_ctx,
devtools):
"""
Args:
mem: Mem instance for storing variables
fd_state: FdState() for managing descriptors
funcs: dict of functions
comp_lookup: registry of completion hooks
exec_opts: ExecOpts
parse_ctx: for instantiating parsers
"""
self.mem = mem
self.fd_state = fd_state
self.funcs = funcs
# Completion hooks, set by 'complete' builtin.
self.comp_lookup = comp_lookup
# This is for shopt and set -o. They are initialized by flags.
self.exec_opts = exec_opts
self.parse_ctx = parse_ctx
self.arena = parse_ctx.arena
self.aliases = parse_ctx.aliases # alias name -> string
self.dumper = devtools.dumper
self.debug_f = devtools.debug_f # Used by ShellFuncAction too
self.splitter = legacy.SplitContext(self.mem)
self.word_ev = word_eval.NormalWordEvaluator(mem, exec_opts, self.splitter,
self.arena, self)
self.arith_ev = expr_eval.ArithEvaluator(mem, exec_opts, self.word_ev,
self.arena)
self.bool_ev = expr_eval.BoolEvaluator(mem, exec_opts, self.word_ev,
self.arena)
self.traps = {} # signal/hook name -> callable
self.nodes_to_run = [] # list of nodes, appended to by signal handlers
self.dir_stack = state.DirStack()
self.targets = [] # make syntax enters stuff here -- Target()
# metaprogramming or regular target syntax
# Whether argv[0] is make determines if it is executed
self.waiter = process.Waiter()
# sleep 5 & puts a (PID, job#) entry here. And then "jobs" displays it.
self.job_state = process.JobState()
self.tracer = Tracer(parse_ctx, exec_opts, mem, self.word_ev,
devtools.trace_f)
self.loop_level = 0 # for detecting bad top-level break/continue
self.check_command_sub_status = False # a hack
def __init__(self, mem, fd_state, funcs, builtins, exec_opts, parse_ctx,
exec_deps):
"""
Args:
mem: Mem instance for storing variables
fd_state: FdState() for managing descriptors
funcs: dict of functions
builtins: dict of builtin callables (TODO: migrate all builtins here)
exec_opts: ExecOpts
parse_ctx: for instantiating parsers
exec_deps: A bundle of stateless code
"""
self.mem = mem
self.fd_state = fd_state
self.funcs = funcs
self.builtins = builtins
# This is for shopt and set -o. They are initialized by flags.
self.exec_opts = exec_opts
self.parse_ctx = parse_ctx
self.arena = parse_ctx.arena
self.aliases = parse_ctx.aliases # alias name -> string
self.dumper = exec_deps.dumper
self.debug_f = exec_deps.debug_f # Used by ShellFuncAction too
self.splitter = exec_deps.splitter
self.word_ev = exec_deps.word_ev
self.arith_ev = exec_deps.arith_ev
self.bool_ev = exec_deps.bool_ev
self.ext_prog = exec_deps.ext_prog
self.traps = {} # signal/hook name -> callable
self.nodes_to_run = [] # list of nodes, appended to by signal handlers
self.dir_stack = state.DirStack()
self.targets = [] # make syntax enters stuff here -- Target()
# metaprogramming or regular target syntax
# Whether argv[0] is make determines if it is executed
self.waiter = process.Waiter()
# sleep 5 & puts a (PID, job#) entry here. And then "jobs" displays it.
self.job_state = process.JobState()
self.tracer = exec_deps.tracer
self.loop_level = 0 # for detecting bad top-level break/continue
self.check_command_sub_status = False # a hack
def setUp(self):
self.arena = test_lib.MakeArena('process_test.py')
mem = state.Mem('', [], self.arena, [])
parse_opts, exec_opts, mutable_opts = state.MakeOpts(mem, None)
mem.exec_opts = exec_opts
state.InitMem(mem, {}, '0.1')
self.job_state = process.JobState()
sig_state = pyos.SignalState()
self.tracer = dev.Tracer(None, exec_opts, mutable_opts, mem,
mylib.Stderr())
self.waiter = process.Waiter(self.job_state, exec_opts, sig_state,
self.tracer)
errfmt = ui.ErrorFormatter(self.arena)
self.fd_state = process.FdState(errfmt, self.job_state, None,
self.tracer)
self.ext_prog = process.ExternalProgram('', self.fd_state, errfmt,
util.NullDebugFile())
def __init__(self, mem, status_lines, funcs, completion, comp_lookup,
exec_opts, arena):
"""
Args:
mem: Mem instance for storing variables
status_lines: shared with completion. TODO: Move this to the end.
funcs: registry of functions (these names are completed)
completion: completion module, if available
comp_lookup: completion pattern/action
exec_opts: ExecOpts
arena: for printing error locations
"""
self.mem = mem
self.status_lines = status_lines
# function space is different than var space. Not hierarchical.
self.funcs = funcs
self.completion = completion
# Completion hooks, set by 'complete' builtin.
self.comp_lookup = comp_lookup
# This is for shopt and set -o. They are initialized by flags.
self.exec_opts = exec_opts
self.arena = arena
self.ev = word_eval.NormalWordEvaluator(mem, exec_opts, self)
self.arith_ev = expr_eval.ArithEvaluator(mem, exec_opts, self.ev)
self.bool_ev = expr_eval.BoolEvaluator(mem, exec_opts, self.ev)
self.traps = {}
self.fd_state = process.FdState()
self.dir_stack = []
# TODO: Pass these in from main()
self.aliases = {} # alias name -> string
self.targets = [] # make syntax enters stuff here -- Target()
# metaprogramming or regular target syntax
# Whether argv[0] is make determines if it is executed
self.waiter = process.Waiter()
# sleep 5 & puts a (PID, job#) entry here. And then "jobs" displays it.
self.job_state = process.JobState()
print('-' * 60)
print(msg)
# TODO: Put these all in a function.
_ARENA = test_lib.MakeArena('process_test.py')
_MEM = state.Mem('', [], _ARENA, [])
state.InitMem(_MEM, {}, '0.1')
_OPT_ARRAY = [False] * option_i.ARRAY_SIZE
_PARSE_OPTS = optview.Parse(_OPT_ARRAY)
_ERREXIT = state._ErrExit()
_EXEC_OPTS = state.MutableOpts(_MEM, _OPT_ARRAY, _ERREXIT, None)
_JOB_STATE = process.JobState()
_WAITER = process.Waiter(_JOB_STATE, _EXEC_OPTS)
_ERRFMT = ui.ErrorFormatter(_ARENA)
_FD_STATE = process.FdState(_ERRFMT, _JOB_STATE)
_EXT_PROG = process.ExternalProgram('', _FD_STATE, _ERRFMT,
util.NullDebugFile())
def _CommandNode(code_str, arena):
c_parser = test_lib.InitCommandParser(code_str, arena=arena)
return c_parser.ParseLogicalLine()
def _ExtProc(argv):
arg_vec = cmd_value.Argv(argv, [0] * len(argv))
argv0_path = None
for path_entry in ['/bin', '/usr/bin']:
def InitCommandEvaluator(parse_ctx=None, comp_lookup=None, arena=None, mem=None,
aliases=None, ext_prog=None):
opt0_array = state.InitOpts()
opt_stacks = [None] * option_i.ARRAY_SIZE
if parse_ctx:
arena = parse_ctx.arena
parse_opts = parse_ctx.parse_opts
else:
parse_ctx = InitParseContext()
mem = mem or state.Mem('', [], arena, [])
exec_opts = optview.Exec(opt0_array, opt_stacks)
mutable_opts = state.MutableOpts(mem, opt0_array, opt_stacks, None)
mem.exec_opts = exec_opts
state.InitMem(mem, {}, '0.1')
mutable_opts.Init()
# No 'readline' in the tests.
errfmt = ui.ErrorFormatter(arena)
job_state = process.JobState()
fd_state = process.FdState(errfmt, job_state)
aliases = {} if aliases is None else aliases
procs = {}
compopt_state = completion.OptionState()
comp_lookup = comp_lookup or completion.Lookup()
readline = None # simulate not having it
new_var = builtin_assign.NewVar(mem, procs, errfmt)
assign_builtins = {
builtin_i.declare: new_var,
builtin_i.typeset: new_var,
builtin_i.local: new_var,
builtin_i.export_: builtin_assign.Export(mem, errfmt),
builtin_i.readonly: builtin_assign.Readonly(mem, errfmt),
}
builtins = { # Lookup
builtin_i.echo: builtin_pure.Echo(exec_opts),
builtin_i.shift: builtin_assign.Shift(mem),
builtin_i.history: builtin_lib.History(readline, mylib.Stdout()),
builtin_i.compopt: builtin_comp.CompOpt(compopt_state, errfmt),
builtin_i.compadjust: builtin_comp.CompAdjust(mem),
builtin_i.alias: builtin_pure.Alias(aliases, errfmt),
builtin_i.unalias: builtin_pure.UnAlias(aliases, errfmt),
}
debug_f = util.DebugFile(sys.stderr)
cmd_deps = cmd_eval.Deps()
cmd_deps.mutable_opts = mutable_opts
cmd_deps.trap_nodes = []
search_path = state.SearchPath(mem)
waiter = process.Waiter(job_state, exec_opts)
ext_prog = \
ext_prog or process.ExternalProgram('', fd_state, errfmt, debug_f)
cmd_deps.dumper = dev.CrashDumper('')
cmd_deps.debug_f = debug_f
splitter = split.SplitContext(mem)
arith_ev = sh_expr_eval.ArithEvaluator(mem, exec_opts, parse_ctx, errfmt)
bool_ev = sh_expr_eval.BoolEvaluator(mem, exec_opts, parse_ctx, errfmt)
expr_ev = expr_eval.OilEvaluator(mem, procs, splitter, errfmt)
word_ev = word_eval.NormalWordEvaluator(mem, exec_opts, mutable_opts,
splitter, errfmt)
cmd_ev = cmd_eval.CommandEvaluator(mem, exec_opts, errfmt, procs,
assign_builtins, arena, cmd_deps)
shell_ex = executor.ShellExecutor(
mem, exec_opts, mutable_opts, procs, builtins, search_path,
ext_prog, waiter, job_state, fd_state, errfmt)
assert cmd_ev.mutable_opts is not None, cmd_ev
prompt_ev = prompt.Evaluator('osh', parse_ctx, mem)
tracer = dev.Tracer(parse_ctx, exec_opts, mutable_opts, mem, word_ev,
debug_f)
vm.InitCircularDeps(arith_ev, bool_ev, expr_ev, word_ev, cmd_ev, shell_ex,
prompt_ev, tracer)
spec_builder = builtin_comp.SpecBuilder(cmd_ev, parse_ctx, word_ev, splitter,
comp_lookup)
# Add some builtins that depend on the executor!
complete_builtin = builtin_comp.Complete(spec_builder, comp_lookup)
builtins[builtin_i.complete] = complete_builtin
builtins[builtin_i.compgen] = builtin_comp.CompGen(spec_builder)
return cmd_ev
from core import process # module under test
from core import ui
from core import util
from core.util import log
from core import test_lib
Process = process.Process
ExternalThunk = process.ExternalThunk
def Banner(msg):
print('-' * 60)
print(msg)
_WAITER = process.Waiter()
_ARENA = test_lib.MakeArena('process_test.py')
_ERRFMT = ui.ErrorFormatter(_ARENA)
_FD_STATE = process.FdState(_ERRFMT)
_EXT_PROG = process.ExternalProgram(False, _FD_STATE, _ERRFMT,
util.NullDebugFile())
def _CommandNode(code_str, arena):
c_parser = test_lib.InitCommandParser(code_str, arena=arena)
return c_parser.ParseLogicalLine()
def _ExtProc(argv):
arg_vec = arg_vector(argv, [0] * len(argv))
return Process(ExternalThunk(_EXT_PROG, arg_vec, {}))
def InitExecutor(parse_ctx=None,
comp_lookup=None,
arena=None,
mem=None,
aliases=None,
ext_prog=None):
if parse_ctx:
arena = parse_ctx.arena
parse_opts = parse_ctx.parse_opts
else:
arena or MakeArena('<InitExecutor>')
parse_opts = parse_lib.OilParseOptions()
parse_ctx = parse_lib.ParseContext(arena, parse_opts, {}, None)
mem = mem or state.Mem('', [], {}, arena)
exec_opts = state.ExecOpts(mem, parse_opts, None)
errfmt = ui.ErrorFormatter(arena)
job_state = process.JobState()
fd_state = process.FdState(errfmt, job_state)
funcs = {}
aliases = {} if aliases is None else aliases
compopt_state = completion.OptionState()
comp_lookup = comp_lookup or completion.Lookup()
readline = None # simulate not having it
new_var = builtin_assign.NewVar(mem, funcs, errfmt)
builtins = { # Lookup
builtin_e.ECHO: builtin_pure.Echo(exec_opts),
builtin_e.SHIFT: builtin_assign.Shift(mem),
builtin_e.HISTORY: builtin.History(readline),
builtin_e.COMPOPT: builtin_comp.CompOpt(compopt_state, errfmt),
builtin_e.COMPADJUST: builtin_comp.CompAdjust(mem),
builtin_e.ALIAS: builtin_pure.Alias(aliases, errfmt),
builtin_e.UNALIAS: builtin_pure.UnAlias(aliases, errfmt),
builtin_e.DECLARE: new_var,
builtin_e.TYPESET: new_var,
builtin_e.LOCAL: new_var,
builtin_e.EXPORT: builtin_assign.Export(mem, errfmt),
builtin_e.READONLY: builtin_assign.Readonly(mem, errfmt),
}
# For the tests, we do not use 'readline'.
exec_opts = state.ExecOpts(mem, parse_opts, None)
debug_f = util.DebugFile(sys.stderr)
exec_deps = cmd_exec.Deps()
exec_deps.search_path = state.SearchPath(mem)
exec_deps.errfmt = errfmt
exec_deps.trap_nodes = []
exec_deps.job_state = job_state
exec_deps.waiter = process.Waiter(exec_deps.job_state, exec_opts)
exec_deps.ext_prog = \
ext_prog or process.ExternalProgram('', fd_state,
exec_deps.search_path, errfmt,
debug_f)
exec_deps.dumper = dev.CrashDumper('')
exec_deps.debug_f = debug_f
exec_deps.trace_f = debug_f
splitter = split.SplitContext(mem)
exec_deps.splitter = splitter
word_ev = word_eval.NormalWordEvaluator(mem, exec_opts, exec_deps, arena)
exec_deps.word_ev = word_ev
arith_ev = expr_eval.ArithEvaluator(mem, exec_opts, word_ev, arena)
exec_deps.arith_ev = arith_ev
word_ev.arith_ev = arith_ev # Circular
bool_ev = expr_eval.BoolEvaluator(mem, exec_opts, word_ev, arena)
exec_deps.bool_ev = bool_ev
tracer = dev.Tracer(parse_ctx, exec_opts, mem, word_ev, debug_f)
exec_deps.tracer = tracer
ex = cmd_exec.Executor(mem, fd_state, funcs, builtins, exec_opts,
parse_ctx, exec_deps)
spec_builder = builtin_comp.SpecBuilder(ex, parse_ctx, word_ev, splitter,
comp_lookup)
# Add some builtins that depend on the executor!
complete_builtin = builtin_comp.Complete(spec_builder, comp_lookup)
builtins[builtin_e.COMPLETE] = complete_builtin
builtins[builtin_e.COMPGEN] = builtin_comp.CompGen(spec_builder)
return ex
def Main(lang, arg_r, environ, login_shell, loader, line_input):
# type: (str, args.Reader, Dict[str, str], bool, pyutil._ResourceLoader, Any) -> int
"""The full shell lifecycle. Used by bin/osh and bin/oil.
Args:
lang: 'osh' or 'oil'
argv0, arg_r: command line arguments
environ: environment
login_shell: Was - on the front?
loader: to get help, version, grammar, etc.
line_input: optional GNU readline
"""
# Differences between osh and oil:
# - --help? I guess Oil has a SUPERSET of OSH options.
# - oshrc vs oilrc
# - shopt -s oil:all
# - Change the prompt in the interactive shell?
# osh-pure:
# - no oil grammar
# - no expression evaluator
# - no interactive shell, or line_input
# - no process.*
# process.{ExternalProgram,Waiter,FdState,JobState,SignalState} -- we want
# to evaluate config files without any of these
# Modules not translated yet: completion, comp_ui, builtin_comp, process
# - word evaluator
# - shouldn't glob? set -o noglob? or hard failure?
# - ~ shouldn't read from the file system
# - I guess it can just be the HOME=HOME?
# Builtin:
# shellvm -c 'echo hi'
# shellvm <<< 'echo hi'
argv0 = arg_r.Peek()
assert argv0 is not None
arg_r.Next()
assert lang in ('osh', 'oil'), lang
try:
attrs = flag_spec.ParseMore('main', arg_r)
except error.Usage as e:
stderr_line('osh usage error: %s', e.msg)
return 2
flag = arg_types.main(attrs.attrs)
arena = alloc.Arena()
errfmt = ui.ErrorFormatter(arena)
help_builtin = builtin_misc.Help(loader, errfmt)
if flag.help:
help_builtin.Run(pure.MakeBuiltinArgv(['%s-usage' % lang]))
return 0
if flag.version:
# OSH version is the only binary in Oil right now, so it's all one version.
pyutil.ShowAppVersion('Oil', loader)
return 0
no_str = None # type: str
debug_stack = [] # type: List[state.DebugFrame]
if arg_r.AtEnd():
dollar0 = argv0
else:
dollar0 = arg_r.Peek() # the script name, or the arg after -c
# Copy quirky bash behavior.
frame0 = state.DebugFrame(dollar0, 'main', no_str, state.LINE_ZERO, 0,
0)
debug_stack.append(frame0)
# Copy quirky bash behavior.
frame1 = state.DebugFrame(no_str, no_str, no_str, runtime.NO_SPID, 0, 0)
debug_stack.append(frame1)
script_name = arg_r.Peek() # type: Optional[str]
arg_r.Next()
mem = state.Mem(dollar0, arg_r.Rest(), arena, debug_stack)
version_str = pyutil.GetVersion(loader)
state.InitMem(mem, environ, version_str)
builtin_funcs.Init(mem)
procs = {} # type: Dict[str, command__ShFunction]
job_state = process.JobState()
fd_state = process.FdState(errfmt, job_state, mem)
opt_hook = ShellOptHook(line_input)
parse_opts, exec_opts, mutable_opts = state.MakeOpts(mem, opt_hook)
# TODO: only MutableOpts needs mem, so it's not a true circular dep.
mem.exec_opts = exec_opts # circular dep
if attrs.show_options: # special case: sh -o
mutable_opts.ShowOptions([])
return 0
# Set these BEFORE processing flags, so they can be overridden.
if lang == 'oil':
mutable_opts.SetShoptOption('oil:all', True)
builtin_pure.SetShellOpts(mutable_opts, attrs.opt_changes,
attrs.shopt_changes)
# feedback between runtime and parser
aliases = {} # type: Dict[str, str]
oil_grammar = pyutil.LoadOilGrammar(loader)
if flag.one_pass_parse and not exec_opts.noexec():
raise error.Usage('--one-pass-parse requires noexec (-n)')
parse_ctx = parse_lib.ParseContext(arena, parse_opts, aliases, oil_grammar)
parse_ctx.Init_OnePassParse(flag.one_pass_parse)
# Three ParseContext instances SHARE aliases.
comp_arena = alloc.Arena()
comp_arena.PushSource(source.Unused('completion'))
trail1 = parse_lib.Trail()
# one_pass_parse needs to be turned on to complete inside backticks. TODO:
# fix the issue where ` gets erased because it's not part of
# set_completer_delims().
comp_ctx = parse_lib.ParseContext(comp_arena, parse_opts, aliases,
oil_grammar)
comp_ctx.Init_Trail(trail1)
comp_ctx.Init_OnePassParse(True)
hist_arena = alloc.Arena()
hist_arena.PushSource(source.Unused('history'))
trail2 = parse_lib.Trail()
hist_ctx = parse_lib.ParseContext(hist_arena, parse_opts, aliases,
oil_grammar)
hist_ctx.Init_Trail(trail2)
# Deps helps manages dependencies. These dependencies are circular:
# - cmd_ev and word_ev, arith_ev -- for command sub, arith sub
# - arith_ev and word_ev -- for $(( ${a} )) and $x$(( 1 ))
# - cmd_ev and builtins (which execute code, like eval)
# - prompt_ev needs word_ev for $PS1, which needs prompt_ev for @P
cmd_deps = cmd_eval.Deps()
cmd_deps.mutable_opts = mutable_opts
# TODO: In general, cmd_deps are shared between the mutually recursive
# evaluators. Some of the four below are only shared between a builtin and
# the CommandEvaluator, so we could put them somewhere else.
cmd_deps.traps = {}
cmd_deps.trap_nodes = [] # TODO: Clear on fork() to avoid duplicates
waiter = process.Waiter(job_state, exec_opts)
my_pid = posix.getpid()
debug_path = ''
debug_dir = environ.get('OSH_DEBUG_DIR')
if flag.debug_file is not None:
# --debug-file takes precedence over OSH_DEBUG_DIR
debug_path = flag.debug_file
elif debug_dir is not None:
debug_path = os_path.join(debug_dir, '%d-osh.log' % my_pid)
if len(debug_path):
# This will be created as an empty file if it doesn't exist, or it could be
# a pipe.
try:
debug_f = util.DebugFile(
fd_state.OpenForWrite(debug_path)) # type: util._DebugFile
except OSError as e:
stderr_line("osh: Couldn't open %r: %s", debug_path,
posix.strerror(e.errno))
return 2
else:
debug_f = util.NullDebugFile()
cmd_deps.debug_f = debug_f
# Not using datetime for dependency reasons. TODO: maybe show the date at
# the beginning of the log, and then only show time afterward? To save
# space, and make space for microseconds. (datetime supports microseconds
# but time.strftime doesn't).
if mylib.PYTHON:
iso_stamp = time.strftime("%Y-%m-%d %H:%M:%S")
debug_f.log('%s [%d] OSH started with argv %s', iso_stamp, my_pid,
arg_r.argv)
if len(debug_path):
debug_f.log('Writing logs to %r', debug_path)
interp = environ.get('OSH_HIJACK_SHEBANG', '')
search_path = state.SearchPath(mem)
ext_prog = process.ExternalProgram(interp, fd_state, errfmt, debug_f)
splitter = split.SplitContext(mem)
# split() builtin
# TODO: Accept IFS as a named arg? split('a b', IFS=' ')
builtin_funcs.SetGlobalFunc(
mem,
'split',
lambda s, ifs=None: splitter.SplitForWordEval(s, ifs=ifs))
# glob() builtin
# TODO: This is instantiation is duplicated in osh/word_eval.py
globber = glob_.Globber(exec_opts)
builtin_funcs.SetGlobalFunc(mem, 'glob', lambda s: globber.OilFuncCall(s))
# This could just be OSH_DEBUG_STREAMS='debug crash' ? That might be
# stuffing too much into one, since a .json crash dump isn't a stream.
crash_dump_dir = environ.get('OSH_CRASH_DUMP_DIR', '')
cmd_deps.dumper = dev.CrashDumper(crash_dump_dir)
if flag.xtrace_to_debug_file:
trace_f = debug_f
else:
trace_f = util.DebugFile(mylib.Stderr())
comp_lookup = completion.Lookup()
# Various Global State objects to work around readline interfaces
compopt_state = completion.OptionState()
comp_ui_state = comp_ui.State()
prompt_state = comp_ui.PromptState()
dir_stack = state.DirStack()
#
# Initialize builtins that don't depend on evaluators
#
builtins = {} # type: Dict[int, vm._Builtin]
pure.AddPure(builtins, mem, procs, mutable_opts, aliases, search_path,
errfmt)
pure.AddIO(builtins, mem, dir_stack, exec_opts, splitter, errfmt)
AddProcess(builtins, mem, ext_prog, fd_state, job_state, waiter,
search_path, errfmt)
AddOil(builtins, mem, errfmt)
builtins[builtin_i.help] = help_builtin
# Interactive, depend on line_input
builtins[builtin_i.bind] = builtin_lib.Bind(line_input, errfmt)
builtins[builtin_i.history] = builtin_lib.History(line_input,
mylib.Stdout())
#
# Assignment builtins
#
assign_b = {} # type: Dict[int, vm._AssignBuiltin]
new_var = builtin_assign.NewVar(mem, procs, errfmt)
assign_b[builtin_i.declare] = new_var
assign_b[builtin_i.typeset] = new_var
assign_b[builtin_i.local] = new_var
assign_b[builtin_i.export_] = builtin_assign.Export(mem, errfmt)
assign_b[builtin_i.readonly] = builtin_assign.Readonly(mem, errfmt)
#
# Initialize Evaluators
#
arith_ev = sh_expr_eval.ArithEvaluator(mem, exec_opts, parse_ctx, errfmt)
bool_ev = sh_expr_eval.BoolEvaluator(mem, exec_opts, parse_ctx, errfmt)
expr_ev = expr_eval.OilEvaluator(mem, procs, splitter, errfmt)
word_ev = word_eval.NormalWordEvaluator(mem, exec_opts, splitter, errfmt)
cmd_ev = cmd_eval.CommandEvaluator(mem, exec_opts, errfmt, procs, assign_b,
arena, cmd_deps)
shell_ex = executor.ShellExecutor(mem, exec_opts, mutable_opts, procs,
builtins, search_path, ext_prog, waiter,
job_state, fd_state, errfmt)
# PromptEvaluator rendering is needed in non-interactive shells for @P.
prompt_ev = prompt.Evaluator(lang, parse_ctx, mem)
tracer = dev.Tracer(parse_ctx, exec_opts, mutable_opts, mem, word_ev,
trace_f)
# Wire up circular dependencies.
vm.InitCircularDeps(arith_ev, bool_ev, expr_ev, word_ev, cmd_ev, shell_ex,
prompt_ev, tracer)
#
# Initialize builtins that depend on evaluators
#
# note: 'printf -v a[i]' and 'unset a[i]' require same deps
builtins[builtin_i.printf] = builtin_printf.Printf(mem, exec_opts,
parse_ctx, arith_ev,
errfmt)
builtins[builtin_i.unset] = builtin_assign.Unset(mem, exec_opts, procs,
parse_ctx, arith_ev,
errfmt)
builtins[builtin_i.eval] = builtin_meta.Eval(parse_ctx, exec_opts, cmd_ev)
source_builtin = builtin_meta.Source(parse_ctx, search_path, cmd_ev,
fd_state, errfmt)
builtins[builtin_i.source] = source_builtin
builtins[builtin_i.dot] = source_builtin
builtins[builtin_i.builtin] = builtin_meta.Builtin(shell_ex, errfmt)
builtins[builtin_i.command] = builtin_meta.Command(shell_ex, procs,
aliases, search_path)
spec_builder = builtin_comp.SpecBuilder(cmd_ev, parse_ctx, word_ev,
splitter, comp_lookup)
complete_builtin = builtin_comp.Complete(spec_builder, comp_lookup)
builtins[builtin_i.complete] = complete_builtin
builtins[builtin_i.compgen] = builtin_comp.CompGen(spec_builder)
builtins[builtin_i.compopt] = builtin_comp.CompOpt(compopt_state, errfmt)
builtins[builtin_i.compadjust] = builtin_comp.CompAdjust(mem)
# These builtins take blocks, and thus need cmd_ev.
builtins[builtin_i.cd] = builtin_misc.Cd(mem, dir_stack, cmd_ev, errfmt)
builtins[builtin_i.json] = builtin_oil.Json(mem, cmd_ev, errfmt)
sig_state = pyos.SignalState()
sig_state.InitShell()
builtins[builtin_i.trap] = builtin_process.Trap(sig_state, cmd_deps.traps,
cmd_deps.trap_nodes,
parse_ctx, errfmt)
# History evaluation is a no-op if line_input is None.
hist_ev = history.Evaluator(line_input, hist_ctx, debug_f)
if flag.c is not None:
arena.PushSource(source.CFlag())
line_reader = reader.StringLineReader(flag.c,
arena) # type: reader._Reader
if flag.i: # -c and -i can be combined
mutable_opts.set_interactive()
elif flag.i: # force interactive
arena.PushSource(source.Stdin(' -i'))
line_reader = py_reader.InteractiveLineReader(arena, prompt_ev,
hist_ev, line_input,
prompt_state)
mutable_opts.set_interactive()
else:
if script_name is None:
stdin = mylib.Stdin()
if stdin.isatty():
arena.PushSource(source.Interactive())
line_reader = py_reader.InteractiveLineReader(
arena, prompt_ev, hist_ev, line_input, prompt_state)
mutable_opts.set_interactive()
else:
arena.PushSource(source.Stdin(''))
line_reader = reader.FileLineReader(stdin, arena)
else:
arena.PushSource(source.MainFile(script_name))
try:
f = fd_state.Open(script_name)
except OSError as e:
stderr_line("osh: Couldn't open %r: %s", script_name,
posix.strerror(e.errno))
return 1
line_reader = reader.FileLineReader(f, arena)
# TODO: assert arena.NumSourcePaths() == 1
# TODO: .rc file needs its own arena.
c_parser = parse_ctx.MakeOshParser(line_reader)
if exec_opts.interactive():
# bash: 'set -o emacs' is the default only in the interactive shell
mutable_opts.set_emacs()
# Calculate ~/.config/oil/oshrc or oilrc
# Use ~/.config/oil to avoid cluttering the user's home directory. Some
# users may want to ln -s ~/.config/oil/oshrc ~/oshrc or ~/.oshrc.
# https://unix.stackexchange.com/questions/24347/why-do-some-applications-use-config-appname-for-their-config-data-while-other
home_dir = pyos.GetMyHomeDir()
assert home_dir is not None
history_filename = os_path.join(home_dir,
'.config/oil/history_%s' % lang)
if line_input:
# NOTE: We're using a different WordEvaluator here.
ev = word_eval.CompletionWordEvaluator(mem, exec_opts, splitter,
errfmt)
ev.arith_ev = arith_ev
ev.expr_ev = expr_ev
ev.prompt_ev = prompt_ev
ev.CheckCircularDeps()
root_comp = completion.RootCompleter(ev, mem, comp_lookup,
compopt_state, comp_ui_state,
comp_ctx, debug_f)
term_width = 0
if flag.completion_display == 'nice':
try:
term_width = libc.get_terminal_width()
except IOError: # stdin not a terminal
pass
if term_width != 0:
display = comp_ui.NiceDisplay(
term_width, comp_ui_state, prompt_state, debug_f,
line_input) # type: comp_ui._IDisplay
else:
display = comp_ui.MinimalDisplay(comp_ui_state, prompt_state,
debug_f)
comp_ui.InitReadline(line_input, history_filename, root_comp,
display, debug_f)
_InitDefaultCompletions(cmd_ev, complete_builtin, comp_lookup)
else: # Without readline module
display = comp_ui.MinimalDisplay(comp_ui_state, prompt_state,
debug_f)
sig_state.InitInteractiveShell(display)
rc_path = flag.rcfile or os_path.join(home_dir,
'.config/oil/%src' % lang)
try:
# NOTE: Should be called AFTER _InitDefaultCompletions.
SourceStartupFile(fd_state, rc_path, lang, parse_ctx, cmd_ev)
except util.UserExit as e:
return e.status
line_reader.Reset() # After sourcing startup file, render $PS1
prompt_plugin = prompt.UserPlugin(mem, parse_ctx, cmd_ev)
try:
status = main_loop.Interactive(flag, cmd_ev, c_parser, display,
prompt_plugin, errfmt)
except util.UserExit as e:
status = e.status
box = [status]
cmd_ev.MaybeRunExitTrap(box)
status = box[0]
return status
if flag.rcfile: # bash doesn't have this warning, but it's useful
stderr_line('osh warning: --rcfile ignored in non-interactive shell')
if exec_opts.noexec():
status = 0
try:
node = main_loop.ParseWholeFile(c_parser)
except error.Parse as e:
ui.PrettyPrintError(e, arena)
status = 2
if status == 0:
if flag.parser_mem_dump is not None: # only valid in -n mode
input_path = '/proc/%d/status' % posix.getpid()
pyutil.CopyFile(input_path, flag.parser_mem_dump)
ui.PrintAst(node, flag)
else:
if flag.parser_mem_dump is not None:
raise error.Usage('--parser-mem-dump can only be used with -n')
try:
status = main_loop.Batch(cmd_ev,
c_parser,
arena,
cmd_flags=cmd_eval.IsMainProgram)
except util.UserExit as e:
status = e.status
box = [status]
cmd_ev.MaybeRunExitTrap(box)
status = box[0]
# NOTE: 'exit 1' is ControlFlow and gets here, but subshell/commandsub
# don't because they call sys.exit().
if flag.runtime_mem_dump is not None:
input_path = '/proc/%d/status' % posix.getpid()
pyutil.CopyFile(input_path, flag.runtime_mem_dump)
# NOTE: We haven't closed the file opened with fd_state.Open
return status
def ShellMain(lang, argv0, argv, login_shell):
"""Used by bin/osh and bin/oil.
Args:
lang: 'osh' or 'oil'
argv0, argv: So we can also invoke bin/osh as 'oil.ovm osh'. Like busybox.
login_shell: Was - on the front?
"""
# Differences between osh and oil:
# - --help? I guess Oil has a SUPERSET of OSH options.
# - oshrc vs oilrc
# - the parser and executor
# - Change the prompt in the interactive shell?
assert lang in ('osh', 'oil'), lang
arg_r = args.Reader(argv)
try:
opts = OSH_SPEC.Parse(arg_r)
except args.UsageError as e:
ui.Stderr('osh usage error: %s', e.msg)
return 2
# NOTE: This has a side effect of deleting _OVM_* from the environment!
# TODO: Thread this throughout the program, and get rid of the global
# variable in core/util.py. Rename to InitResourceLaoder(). It's now only
# used for the 'help' builtin and --version.
loader = pyutil.GetResourceLoader()
if opts.help:
builtin.Help(['%s-usage' % lang], loader)
return 0
if opts.version:
# OSH version is the only binary in Oil right now, so it's all one version.
_ShowVersion()
return 0
if arg_r.AtEnd():
dollar0 = argv0
has_main = False
else:
dollar0 = arg_r.Peek() # the script name, or the arg after -c
has_main = True
arena = alloc.Arena()
errfmt = ui.ErrorFormatter(arena)
# NOTE: has_main is only for ${BASH_SOURCE[@} and family. Could be a
# required arg.
mem = state.Mem(dollar0,
argv[arg_r.i + 1:],
posix.environ,
arena,
has_main=has_main)
builtin_funcs.Init(mem)
procs = {}
job_state = process.JobState()
fd_state = process.FdState(errfmt, job_state)
parse_opts = parse_lib.OilParseOptions()
exec_opts = state.ExecOpts(mem, parse_opts, line_input)
if opts.show_options: # special case: sh -o
exec_opts.ShowOptions([])
return 0
builtin_pure.SetExecOpts(exec_opts, opts.opt_changes, opts.shopt_changes)
aliases = {} # feedback between runtime and parser
oil_grammar = meta.LoadOilGrammar(loader)
if opts.one_pass_parse and not exec_opts.noexec:
raise args.UsageError('--one-pass-parse requires noexec (-n)')
parse_ctx = parse_lib.ParseContext(arena,
parse_opts,
aliases,
oil_grammar,
one_pass_parse=opts.one_pass_parse)
# Three ParseContext instances SHARE aliases.
comp_arena = alloc.Arena()
comp_arena.PushSource(source.Unused('completion'))
trail1 = parse_lib.Trail()
# one_pass_parse needs to be turned on to complete inside backticks. TODO:
# fix the issue where ` gets erased because it's not part of
# set_completer_delims().
comp_ctx = parse_lib.ParseContext(comp_arena,
parse_opts,
aliases,
oil_grammar,
trail=trail1,
one_pass_parse=True)
hist_arena = alloc.Arena()
hist_arena.PushSource(source.Unused('history'))
trail2 = parse_lib.Trail()
hist_ctx = parse_lib.ParseContext(hist_arena,
parse_opts,
aliases,
oil_grammar,
trail=trail2)
# Deps helps manages dependencies. These dependencies are circular:
# - ex and word_ev, arith_ev -- for command sub, arith sub
# - arith_ev and word_ev -- for $(( ${a} )) and $x$(( 1 ))
# - ex and builtins (which execute code, like eval)
# - prompt_ev needs word_ev for $PS1, which needs prompt_ev for @P
exec_deps = cmd_exec.Deps()
# TODO: In general, exec_deps are shared between the mutually recursive
# evaluators. Some of the four below are only shared between a builtin and
# the Executor, so we could put them somewhere else.
exec_deps.traps = {}
exec_deps.trap_nodes = [] # TODO: Clear on fork() to avoid duplicates
exec_deps.job_state = job_state
# note: exec_opts.interactive set later
exec_deps.waiter = process.Waiter(job_state, exec_opts)
exec_deps.errfmt = errfmt
my_pid = posix.getpid()
debug_path = ''
debug_dir = posix.environ.get('OSH_DEBUG_DIR')
if opts.debug_file: # --debug-file takes precedence over OSH_DEBUG_DIR
debug_path = opts.debug_file
elif debug_dir:
debug_path = os_path.join(debug_dir, '%d-osh.log' % my_pid)
if debug_path:
# This will be created as an empty file if it doesn't exist, or it could be
# a pipe.
try:
debug_f = util.DebugFile(fd_state.Open(debug_path, mode='w'))
except OSError as e:
ui.Stderr("osh: Couldn't open %r: %s", debug_path,
posix.strerror(e.errno))
return 2
else:
debug_f = util.NullDebugFile()
exec_deps.debug_f = debug_f
# Not using datetime for dependency reasons. TODO: maybe show the date at
# the beginning of the log, and then only show time afterward? To save
# space, and make space for microseconds. (datetime supports microseconds
# but time.strftime doesn't).
iso_stamp = time.strftime("%Y-%m-%d %H:%M:%S")
debug_f.log('%s [%d] OSH started with argv %s', iso_stamp, my_pid, argv)
if debug_path:
debug_f.log('Writing logs to %r', debug_path)
interp = posix.environ.get('OSH_HIJACK_SHEBANG', '')
exec_deps.search_path = state.SearchPath(mem)
exec_deps.ext_prog = process.ExternalProgram(interp, fd_state,
exec_deps.search_path, errfmt,
debug_f)
splitter = split.SplitContext(mem)
exec_deps.splitter = splitter
# split() builtin
builtin_funcs.SetGlobalFunc(mem, 'split',
lambda s: splitter.SplitForWordEval(s))
# This could just be OSH_DEBUG_STREAMS='debug crash' ? That might be
# stuffing too much into one, since a .json crash dump isn't a stream.
crash_dump_dir = posix.environ.get('OSH_CRASH_DUMP_DIR', '')
exec_deps.dumper = dev.CrashDumper(crash_dump_dir)
if opts.xtrace_to_debug_file:
trace_f = debug_f
else:
trace_f = util.DebugFile(sys.stderr)
exec_deps.trace_f = trace_f
comp_lookup = completion.Lookup()
# Various Global State objects to work around readline interfaces
compopt_state = completion.OptionState()
comp_ui_state = comp_ui.State()
prompt_state = comp_ui.PromptState()
dir_stack = state.DirStack()
new_var = builtin_assign.NewVar(mem, procs, errfmt)
builtins = { # Lookup
builtin_e.ECHO: builtin_pure.Echo(exec_opts),
builtin_e.PRINTF: builtin_printf.Printf(mem, parse_ctx, errfmt),
builtin_e.PUSHD: builtin.Pushd(mem, dir_stack, errfmt),
builtin_e.POPD: builtin.Popd(mem, dir_stack, errfmt),
builtin_e.DIRS: builtin.Dirs(mem, dir_stack, errfmt),
builtin_e.PWD: builtin.Pwd(mem, errfmt),
builtin_e.READ: builtin.Read(splitter, mem),
builtin_e.HELP: builtin.Help(loader, errfmt),
builtin_e.HISTORY: builtin.History(line_input),
# Completion (more added below)
builtin_e.COMPOPT: builtin_comp.CompOpt(compopt_state, errfmt),
builtin_e.COMPADJUST: builtin_comp.CompAdjust(mem),
# test / [ differ by need_right_bracket
builtin_e.TEST: builtin_bracket.Test(False, errfmt),
builtin_e.BRACKET: builtin_bracket.Test(True, errfmt),
# Assignment (which are pure)
builtin_e.DECLARE: new_var,
builtin_e.TYPESET: new_var,
builtin_e.LOCAL: new_var,
builtin_e.EXPORT: builtin_assign.Export(mem, errfmt),
builtin_e.READONLY: builtin_assign.Readonly(mem, errfmt),
builtin_e.UNSET: builtin_assign.Unset(mem, procs, errfmt),
builtin_e.SHIFT: builtin_assign.Shift(mem),
# Pure
builtin_e.SET: builtin_pure.Set(exec_opts, mem),
builtin_e.SHOPT: builtin_pure.Shopt(exec_opts),
builtin_e.ALIAS: builtin_pure.Alias(aliases, errfmt),
builtin_e.UNALIAS: builtin_pure.UnAlias(aliases, errfmt),
builtin_e.TYPE: builtin_pure.Type(procs, aliases, exec_deps.search_path),
builtin_e.HASH: builtin_pure.Hash(exec_deps.search_path),
builtin_e.GETOPTS: builtin_pure.GetOpts(mem, errfmt),
builtin_e.COLON: lambda arg_vec: 0, # a "special" builtin
builtin_e.TRUE: lambda arg_vec: 0,
builtin_e.FALSE: lambda arg_vec: 1,
# Process
builtin_e.WAIT: builtin_process.Wait(exec_deps.waiter,
exec_deps.job_state, mem, errfmt),
builtin_e.JOBS: builtin_process.Jobs(exec_deps.job_state),
builtin_e.FG: builtin_process.Fg(exec_deps.job_state, exec_deps.waiter),
builtin_e.BG: builtin_process.Bg(exec_deps.job_state),
builtin_e.UMASK: builtin_process.Umask,
# Oil
builtin_e.REPR: builtin_oil.Repr(mem, errfmt),
builtin_e.PUSH: builtin_oil.Push(mem, errfmt),
builtin_e.USE: builtin_oil.Use(mem, errfmt),
}
ex = cmd_exec.Executor(mem, fd_state, procs, builtins, exec_opts,
parse_ctx, exec_deps)
exec_deps.ex = ex
word_ev = word_eval.NormalWordEvaluator(mem, exec_opts, exec_deps, arena)
exec_deps.word_ev = word_ev
arith_ev = osh_expr_eval.ArithEvaluator(mem, exec_opts, word_ev, errfmt)
exec_deps.arith_ev = arith_ev
word_ev.arith_ev = arith_ev # Another circular dependency
bool_ev = osh_expr_eval.BoolEvaluator(mem, exec_opts, word_ev, errfmt)
exec_deps.bool_ev = bool_ev
expr_ev = expr_eval.OilEvaluator(mem, procs, ex, word_ev, errfmt)
exec_deps.expr_ev = expr_ev
tracer = dev.Tracer(parse_ctx, exec_opts, mem, word_ev, trace_f)
exec_deps.tracer = tracer
# HACK for circular deps
ex.word_ev = word_ev
ex.arith_ev = arith_ev
ex.bool_ev = bool_ev
ex.expr_ev = expr_ev
ex.tracer = tracer
word_ev.expr_ev = expr_ev
spec_builder = builtin_comp.SpecBuilder(ex, parse_ctx, word_ev, splitter,
comp_lookup)
# Add some builtins that depend on the executor!
complete_builtin = builtin_comp.Complete(spec_builder, comp_lookup)
builtins[builtin_e.COMPLETE] = complete_builtin
builtins[builtin_e.COMPGEN] = builtin_comp.CompGen(spec_builder)
builtins[builtin_e.CD] = builtin.Cd(mem, dir_stack, ex, errfmt)
builtins[builtin_e.JSON] = builtin_oil.Json(mem, ex, errfmt)
sig_state = process.SignalState()
sig_state.InitShell()
builtins[builtin_e.TRAP] = builtin_process.Trap(sig_state, exec_deps.traps,
exec_deps.trap_nodes, ex,
errfmt)
if lang == 'oil':
# The Oil executor wraps an OSH executor? It needs to be able to source
# it.
ex = oil_cmd_exec.OilExecutor(ex)
# PromptEvaluator rendering is needed in non-interactive shells for @P.
prompt_ev = prompt.Evaluator(lang, parse_ctx, ex, mem)
exec_deps.prompt_ev = prompt_ev
word_ev.prompt_ev = prompt_ev # HACK for circular deps
# History evaluation is a no-op if line_input is None.
hist_ev = history.Evaluator(line_input, hist_ctx, debug_f)
if opts.c is not None:
arena.PushSource(source.CFlag())
line_reader = reader.StringLineReader(opts.c, arena)
if opts.i: # -c and -i can be combined
exec_opts.interactive = True
elif opts.i: # force interactive
arena.PushSource(source.Stdin(' -i'))
line_reader = reader.InteractiveLineReader(arena, prompt_ev, hist_ev,
line_input, prompt_state,
sig_state)
exec_opts.interactive = True
else:
try:
script_name = arg_r.Peek()
except IndexError:
if sys.stdin.isatty():
arena.PushSource(source.Interactive())
line_reader = reader.InteractiveLineReader(
arena, prompt_ev, hist_ev, line_input, prompt_state,
sig_state)
exec_opts.interactive = True
else:
arena.PushSource(source.Stdin(''))
line_reader = reader.FileLineReader(sys.stdin, arena)
else:
arena.PushSource(source.MainFile(script_name))
try:
f = fd_state.Open(script_name)
except OSError as e:
ui.Stderr("osh: Couldn't open %r: %s", script_name,
posix.strerror(e.errno))
return 1
line_reader = reader.FileLineReader(f, arena)
# TODO: assert arena.NumSourcePaths() == 1
# TODO: .rc file needs its own arena.
if lang == 'osh':
c_parser = parse_ctx.MakeOshParser(line_reader)
else:
c_parser = parse_ctx.MakeOilParser(line_reader)
if exec_opts.interactive:
# Calculate ~/.config/oil/oshrc or oilrc
# Use ~/.config/oil to avoid cluttering the user's home directory. Some
# users may want to ln -s ~/.config/oil/oshrc ~/oshrc or ~/.oshrc.
# https://unix.stackexchange.com/questions/24347/why-do-some-applications-use-config-appname-for-their-config-data-while-other
home_dir = process.GetHomeDir()
assert home_dir is not None
rc_path = opts.rcfile or os_path.join(home_dir, '.config/oil',
lang + 'rc')
history_filename = os_path.join(home_dir, '.config/oil',
'history_' + lang)
if line_input:
# NOTE: We're using a different WordEvaluator here.
ev = word_eval.CompletionWordEvaluator(mem, exec_opts, exec_deps,
arena)
root_comp = completion.RootCompleter(ev, mem, comp_lookup,
compopt_state, comp_ui_state,
comp_ctx, debug_f)
term_width = 0
if opts.completion_display == 'nice':
try:
term_width = libc.get_terminal_width()
except IOError: # stdin not a terminal
pass
if term_width != 0:
display = comp_ui.NiceDisplay(term_width, comp_ui_state,
prompt_state, debug_f,
line_input)
else:
display = comp_ui.MinimalDisplay(comp_ui_state, prompt_state,
debug_f)
_InitReadline(line_input, history_filename, root_comp, display,
debug_f)
_InitDefaultCompletions(ex, complete_builtin, comp_lookup)
else: # Without readline module
display = comp_ui.MinimalDisplay(comp_ui_state, prompt_state,
debug_f)
sig_state.InitInteractiveShell(display)
# NOTE: Call this AFTER _InitDefaultCompletions.
try:
SourceStartupFile(rc_path, lang, parse_ctx, ex)
except util.UserExit as e:
return e.status
line_reader.Reset() # After sourcing startup file, render $PS1
prompt_plugin = prompt.UserPlugin(mem, parse_ctx, ex)
try:
status = main_loop.Interactive(opts, ex, c_parser, display,
prompt_plugin, errfmt)
if ex.MaybeRunExitTrap():
status = ex.LastStatus()
except util.UserExit as e:
status = e.status
return status
nodes_out = [] if exec_opts.noexec else None
if nodes_out is None and opts.parser_mem_dump:
raise args.UsageError('--parser-mem-dump can only be used with -n')
_tlog('Execute(node)')
try:
status = main_loop.Batch(ex, c_parser, arena, nodes_out=nodes_out)
if ex.MaybeRunExitTrap():
status = ex.LastStatus()
except util.UserExit as e:
status = e.status
# Only print nodes if the whole parse succeeded.
if nodes_out is not None and status == 0:
if opts.parser_mem_dump: # only valid in -n mode
# This might be superstition, but we want to let the value stabilize
# after parsing. bash -c 'cat /proc/$$/status' gives different results
# with a sleep.
time.sleep(0.001)
input_path = '/proc/%d/status' % posix.getpid()
with open(input_path) as f, open(opts.parser_mem_dump, 'w') as f2:
contents = f.read()
f2.write(contents)
log('Wrote %s to %s (--parser-mem-dump)', input_path,
opts.parser_mem_dump)
ui.PrintAst(nodes_out, opts)
# NOTE: 'exit 1' is ControlFlow and gets here, but subshell/commandsub
# don't because they call sys.exit().
if opts.runtime_mem_dump:
# This might be superstition, but we want to let the value stabilize
# after parsing. bash -c 'cat /proc/$$/status' gives different results
# with a sleep.
time.sleep(0.001)
input_path = '/proc/%d/status' % posix.getpid()
with open(input_path) as f, open(opts.runtime_mem_dump, 'w') as f2:
contents = f.read()
f2.write(contents)
log('Wrote %s to %s (--runtime-mem-dump)', input_path,
opts.runtime_mem_dump)
# NOTE: We haven't closed the file opened with fd_state.Open
return status
def ShellMain(lang, argv0, argv, login_shell):
# type: (str, str, List[str], bool) -> int
"""Used by bin/osh and bin/oil.
Args:
lang: 'osh' or 'oil'
argv0, argv: So we can also invoke bin/osh as 'oil.ovm osh'. Like busybox.
login_shell: Was - on the front?
"""
# Differences between osh and oil:
# - --help? I guess Oil has a SUPERSET of OSH options.
# - oshrc vs oilrc
# - the parser and executor
# - Change the prompt in the interactive shell?
assert lang in ('osh', 'oil'), lang
arg_r = args.Reader(argv)
try:
opts = OSH_SPEC.Parse(arg_r)
except args.UsageError as e:
ui.Stderr('osh usage error: %s', e.msg)
return 2
# NOTE: This has a side effect of deleting _OVM_* from the environment!
# TODO: Thread this throughout the program, and get rid of the global
# variable in core/util.py. Rename to InitResourceLaoder(). It's now only
# used for the 'help' builtin and --version.
loader = pyutil.GetResourceLoader()
if opts.help:
builtin_misc.Help(['%s-usage' % lang], loader)
return 0
if opts.version:
# OSH version is the only binary in Oil right now, so it's all one version.
_ShowVersion()
return 0
no_str = None # type: str
debug_stack = []
if arg_r.AtEnd():
dollar0 = argv0
else:
dollar0 = arg_r.Peek() # the script name, or the arg after -c
# Copy quirky bash behavior.
frame0 = state.DebugFrame(dollar0, 'main', no_str, state.LINE_ZERO, 0,
0)
debug_stack.append(frame0)
# Copy quirky bash behavior.
frame1 = state.DebugFrame(no_str, no_str, no_str, runtime.NO_SPID, 0, 0)
debug_stack.append(frame1)
arena = alloc.Arena()
errfmt = ui.ErrorFormatter(arena)
mem = state.Mem(dollar0, argv[arg_r.i + 1:], arena, debug_stack)
state.InitMem(mem, posix.environ)
builtin_funcs.Init(mem)
procs = {}
job_state = process.JobState()
fd_state = process.FdState(errfmt, job_state)
opt_hook = ShellOptHook(line_input)
parse_opts, exec_opts, mutable_opts = state.MakeOpts(mem, opt_hook)
# TODO: only MutableOpts needs mem, so it's not a true circular dep.
mem.exec_opts = exec_opts # circular dep
if opts.show_options: # special case: sh -o
mutable_opts.ShowOptions([])
return 0
# Set these BEFORE processing flags, so they can be overridden.
if lang == 'oil':
mutable_opts.SetShoptOption('oil:all', True)
builtin_pure.SetShellOpts(mutable_opts, opts.opt_changes,
opts.shopt_changes)
aliases = {} # feedback between runtime and parser
oil_grammar = meta.LoadOilGrammar(loader)
if opts.one_pass_parse and not exec_opts.noexec():
raise args.UsageError('--one-pass-parse requires noexec (-n)')
parse_ctx = parse_lib.ParseContext(arena, parse_opts, aliases, oil_grammar)
parse_ctx.Init_OnePassParse(opts.one_pass_parse)
# Three ParseContext instances SHARE aliases.
comp_arena = alloc.Arena()
comp_arena.PushSource(source.Unused('completion'))
trail1 = parse_lib.Trail()
# one_pass_parse needs to be turned on to complete inside backticks. TODO:
# fix the issue where ` gets erased because it's not part of
# set_completer_delims().
comp_ctx = parse_lib.ParseContext(comp_arena, parse_opts, aliases,
oil_grammar)
comp_ctx.Init_Trail(trail1)
comp_ctx.Init_OnePassParse(True)
hist_arena = alloc.Arena()
hist_arena.PushSource(source.Unused('history'))
trail2 = parse_lib.Trail()
hist_ctx = parse_lib.ParseContext(hist_arena, parse_opts, aliases,
oil_grammar)
hist_ctx.Init_Trail(trail2)
# Deps helps manages dependencies. These dependencies are circular:
# - ex and word_ev, arith_ev -- for command sub, arith sub
# - arith_ev and word_ev -- for $(( ${a} )) and $x$(( 1 ))
# - ex and builtins (which execute code, like eval)
# - prompt_ev needs word_ev for $PS1, which needs prompt_ev for @P
exec_deps = cmd_exec.Deps()
exec_deps.mutable_opts = mutable_opts
# TODO: In general, exec_deps are shared between the mutually recursive
# evaluators. Some of the four below are only shared between a builtin and
# the Executor, so we could put them somewhere else.
exec_deps.traps = {}
exec_deps.trap_nodes = [] # TODO: Clear on fork() to avoid duplicates
exec_deps.job_state = job_state
exec_deps.waiter = process.Waiter(job_state, exec_opts)
exec_deps.errfmt = errfmt
my_pid = posix.getpid()
debug_path = ''
debug_dir = posix.environ.get('OSH_DEBUG_DIR')
if opts.debug_file: # --debug-file takes precedence over OSH_DEBUG_DIR
debug_path = opts.debug_file
elif debug_dir:
debug_path = os_path.join(debug_dir, '%d-osh.log' % my_pid)
if debug_path:
# This will be created as an empty file if it doesn't exist, or it could be
# a pipe.
try:
debug_f = util.DebugFile(fd_state.Open(debug_path, mode='w'))
except OSError as e:
ui.Stderr("osh: Couldn't open %r: %s", debug_path,
posix.strerror(e.errno))
return 2
else:
debug_f = util.NullDebugFile()
exec_deps.debug_f = debug_f
# Not using datetime for dependency reasons. TODO: maybe show the date at
# the beginning of the log, and then only show time afterward? To save
# space, and make space for microseconds. (datetime supports microseconds
# but time.strftime doesn't).
iso_stamp = time.strftime("%Y-%m-%d %H:%M:%S")
debug_f.log('%s [%d] OSH started with argv %s', iso_stamp, my_pid, argv)
if debug_path:
debug_f.log('Writing logs to %r', debug_path)
interp = posix.environ.get('OSH_HIJACK_SHEBANG', '')
exec_deps.search_path = state.SearchPath(mem)
exec_deps.ext_prog = process.ExternalProgram(interp, fd_state,
exec_deps.search_path, errfmt,
debug_f)
splitter = split.SplitContext(mem)
# split() builtin
# TODO: Accept IFS as a named arg? split('a b', IFS=' ')
builtin_funcs.SetGlobalFunc(
mem,
'split',
lambda s, ifs=None: splitter.SplitForWordEval(s, ifs=ifs))
# glob() builtin
# TODO: This is instantiation is duplicated in osh/word_eval.py
globber = glob_.Globber(exec_opts)
builtin_funcs.SetGlobalFunc(mem, 'glob', lambda s: globber.OilFuncCall(s))
# This could just be OSH_DEBUG_STREAMS='debug crash' ? That might be
# stuffing too much into one, since a .json crash dump isn't a stream.
crash_dump_dir = posix.environ.get('OSH_CRASH_DUMP_DIR', '')
exec_deps.dumper = dev.CrashDumper(crash_dump_dir)
if opts.xtrace_to_debug_file:
trace_f = debug_f
else:
trace_f = util.DebugFile(sys.stderr)
exec_deps.trace_f = trace_f
comp_lookup = completion.Lookup()
# Various Global State objects to work around readline interfaces
compopt_state = completion.OptionState()
comp_ui_state = comp_ui.State()
prompt_state = comp_ui.PromptState()
dir_stack = state.DirStack()
new_var = builtin_assign.NewVar(mem, procs, errfmt)
builtins = { # Lookup
builtin_i.echo: builtin_pure.Echo(exec_opts),
builtin_i.printf: builtin_printf.Printf(mem, parse_ctx, errfmt),
builtin_i.pushd: builtin_misc.Pushd(mem, dir_stack, errfmt),
builtin_i.popd: builtin_misc.Popd(mem, dir_stack, errfmt),
builtin_i.dirs: builtin_misc.Dirs(mem, dir_stack, errfmt),
builtin_i.pwd: builtin_misc.Pwd(mem, errfmt),
builtin_i.times: builtin_misc.Times(),
builtin_i.read: builtin_misc.Read(splitter, mem),
builtin_i.help: builtin_misc.Help(loader, errfmt),
builtin_i.history: builtin_misc.History(line_input),
# Completion (more added below)
builtin_i.compopt: builtin_comp.CompOpt(compopt_state, errfmt),
builtin_i.compadjust: builtin_comp.CompAdjust(mem),
# test / [ differ by need_right_bracket
builtin_i.test: builtin_bracket.Test(False, exec_opts, errfmt),
builtin_i.bracket: builtin_bracket.Test(True, exec_opts, errfmt),
# ShAssignment (which are pure)
builtin_i.declare: new_var,
builtin_i.typeset: new_var,
builtin_i.local: new_var,
builtin_i.export_: builtin_assign.Export(mem, errfmt),
builtin_i.readonly: builtin_assign.Readonly(mem, errfmt),
builtin_i.unset: builtin_assign.Unset(mem, procs, errfmt),
builtin_i.shift: builtin_assign.Shift(mem),
# Pure
builtin_i.set: builtin_pure.Set(mutable_opts, mem),
builtin_i.shopt: builtin_pure.Shopt(mutable_opts),
builtin_i.alias: builtin_pure.Alias(aliases, errfmt),
builtin_i.unalias: builtin_pure.UnAlias(aliases, errfmt),
builtin_i.type: builtin_pure.Type(procs, aliases, exec_deps.search_path),
builtin_i.hash: builtin_pure.Hash(exec_deps.search_path),
builtin_i.getopts: builtin_pure.GetOpts(mem, errfmt),
builtin_i.colon: builtin_pure.Boolean(0), # a "special" builtin
builtin_i.true_: builtin_pure.Boolean(0),
builtin_i.false_: builtin_pure.Boolean(1),
# Process
builtin_i.wait: builtin_process.Wait(exec_deps.waiter,
exec_deps.job_state, mem, errfmt),
builtin_i.jobs: builtin_process.Jobs(exec_deps.job_state),
builtin_i.fg: builtin_process.Fg(exec_deps.job_state, exec_deps.waiter),
builtin_i.bg: builtin_process.Bg(exec_deps.job_state),
builtin_i.umask: builtin_process.Umask(),
# Oil
builtin_i.push: builtin_oil.Push(mem, errfmt),
builtin_i.append: builtin_oil.Append(mem, errfmt),
builtin_i.write: builtin_oil.Write(mem, errfmt),
builtin_i.getline: builtin_oil.Getline(mem, errfmt),
builtin_i.repr: builtin_oil.Repr(mem, errfmt),
builtin_i.use: builtin_oil.Use(mem, errfmt),
builtin_i.opts: builtin_oil.Opts(mem, errfmt),
}
arith_ev = sh_expr_eval.ArithEvaluator(mem, exec_opts, errfmt)
bool_ev = sh_expr_eval.BoolEvaluator(mem, exec_opts, errfmt)
expr_ev = expr_eval.OilEvaluator(mem, procs, errfmt)
word_ev = word_eval.NormalWordEvaluator(mem, exec_opts, splitter, errfmt)
ex = cmd_exec.Executor(mem, fd_state, procs, builtins, exec_opts,
parse_ctx, exec_deps)
# PromptEvaluator rendering is needed in non-interactive shells for @P.
prompt_ev = prompt.Evaluator(lang, parse_ctx, mem)
tracer = dev.Tracer(parse_ctx, exec_opts, mutable_opts, mem, word_ev,
trace_f)
# Wire up circular dependencies.
vm.InitCircularDeps(arith_ev, bool_ev, expr_ev, word_ev, ex, prompt_ev,
tracer)
spec_builder = builtin_comp.SpecBuilder(ex, parse_ctx, word_ev, splitter,
comp_lookup)
# Add some builtins that depend on the executor!
complete_builtin = builtin_comp.Complete(spec_builder, comp_lookup)
builtins[builtin_i.complete] = complete_builtin
builtins[builtin_i.compgen] = builtin_comp.CompGen(spec_builder)
builtins[builtin_i.cd] = builtin_misc.Cd(mem, dir_stack, ex, errfmt)
builtins[builtin_i.json] = builtin_oil.Json(mem, ex, errfmt)
sig_state = process.SignalState()
sig_state.InitShell()
builtins[builtin_i.trap] = builtin_process.Trap(sig_state, exec_deps.traps,
exec_deps.trap_nodes, ex,
errfmt)
# History evaluation is a no-op if line_input is None.
hist_ev = history.Evaluator(line_input, hist_ctx, debug_f)
if opts.c is not None:
arena.PushSource(source.CFlag())
line_reader = reader.StringLineReader(opts.c, arena)
if opts.i: # -c and -i can be combined
mutable_opts.set_interactive()
elif opts.i: # force interactive
arena.PushSource(source.Stdin(' -i'))
line_reader = py_reader.InteractiveLineReader(arena, prompt_ev,
hist_ev, line_input,
prompt_state)
mutable_opts.set_interactive()
else:
script_name = arg_r.Peek()
if script_name is None:
if sys.stdin.isatty():
arena.PushSource(source.Interactive())
line_reader = py_reader.InteractiveLineReader(
arena, prompt_ev, hist_ev, line_input, prompt_state)
mutable_opts.set_interactive()
else:
arena.PushSource(source.Stdin(''))
line_reader = reader.FileLineReader(sys.stdin, arena)
else:
arena.PushSource(source.MainFile(script_name))
try:
f = fd_state.Open(script_name)
except OSError as e:
ui.Stderr("osh: Couldn't open %r: %s", script_name,
posix.strerror(e.errno))
return 1
line_reader = reader.FileLineReader(f, arena)
# TODO: assert arena.NumSourcePaths() == 1
# TODO: .rc file needs its own arena.
c_parser = parse_ctx.MakeOshParser(line_reader)
if exec_opts.interactive():
# Calculate ~/.config/oil/oshrc or oilrc
# Use ~/.config/oil to avoid cluttering the user's home directory. Some
# users may want to ln -s ~/.config/oil/oshrc ~/oshrc or ~/.oshrc.
# https://unix.stackexchange.com/questions/24347/why-do-some-applications-use-config-appname-for-their-config-data-while-other
home_dir = passwd.GetMyHomeDir()
assert home_dir is not None
rc_path = opts.rcfile or os_path.join(home_dir, '.config/oil',
lang + 'rc')
history_filename = os_path.join(home_dir, '.config/oil',
'history_' + lang)
if line_input:
# NOTE: We're using a different WordEvaluator here.
ev = word_eval.CompletionWordEvaluator(mem, exec_opts, splitter,
errfmt)
ev.arith_ev = arith_ev
ev.expr_ev = expr_ev
ev.prompt_ev = prompt_ev
ev.CheckCircularDeps()
root_comp = completion.RootCompleter(ev, mem, comp_lookup,
compopt_state, comp_ui_state,
comp_ctx, debug_f)
term_width = 0
if opts.completion_display == 'nice':
try:
term_width = libc.get_terminal_width()
except IOError: # stdin not a terminal
pass
if term_width != 0:
display = comp_ui.NiceDisplay(term_width, comp_ui_state,
prompt_state, debug_f,
line_input)
else:
display = comp_ui.MinimalDisplay(comp_ui_state, prompt_state,
debug_f)
_InitReadline(line_input, history_filename, root_comp, display,
debug_f)
_InitDefaultCompletions(ex, complete_builtin, comp_lookup)
else: # Without readline module
display = comp_ui.MinimalDisplay(comp_ui_state, prompt_state,
debug_f)
sig_state.InitInteractiveShell(display)
# NOTE: Call this AFTER _InitDefaultCompletions.
try:
SourceStartupFile(rc_path, lang, parse_ctx, ex)
except util.UserExit as e:
return e.status
line_reader.Reset() # After sourcing startup file, render $PS1
prompt_plugin = prompt.UserPlugin(mem, parse_ctx, ex)
try:
status = main_loop.Interactive(opts, ex, c_parser, display,
prompt_plugin, errfmt)
if ex.MaybeRunExitTrap():
status = ex.LastStatus()
except util.UserExit as e:
status = e.status
return status
nodes_out = [] if exec_opts.noexec() else None
if nodes_out is None and opts.parser_mem_dump:
raise args.UsageError('--parser-mem-dump can only be used with -n')
_tlog('Execute(node)')
try:
status = main_loop.Batch(ex, c_parser, arena, nodes_out=nodes_out)
if ex.MaybeRunExitTrap():
status = ex.LastStatus()
except util.UserExit as e:
status = e.status
# Only print nodes if the whole parse succeeded.
if nodes_out is not None and status == 0:
if opts.parser_mem_dump: # only valid in -n mode
# This might be superstition, but we want to let the value stabilize
# after parsing. bash -c 'cat /proc/$$/status' gives different results
# with a sleep.
time.sleep(0.001)
input_path = '/proc/%d/status' % posix.getpid()
with open(input_path) as f, open(opts.parser_mem_dump, 'w') as f2:
contents = f.read()
f2.write(contents)
log('Wrote %s to %s (--parser-mem-dump)', input_path,
opts.parser_mem_dump)
ui.PrintAst(nodes_out, opts)
# NOTE: 'exit 1' is ControlFlow and gets here, but subshell/commandsub
# don't because they call sys.exit().
if opts.runtime_mem_dump:
# This might be superstition, but we want to let the value stabilize
# after parsing. bash -c 'cat /proc/$$/status' gives different results
# with a sleep.
time.sleep(0.001)
input_path = '/proc/%d/status' % posix.getpid()
with open(input_path) as f, open(opts.runtime_mem_dump, 'w') as f2:
contents = f.read()
f2.write(contents)
log('Wrote %s to %s (--runtime-mem-dump)', input_path,
opts.runtime_mem_dump)
# NOTE: We haven't closed the file opened with fd_state.Open
return status
def Main(lang, arg_r, environ, login_shell, loader, line_input):
# type: (str, args.Reader, Dict[str, str], bool, pyutil._ResourceLoader, Any) -> int
"""The full shell lifecycle. Used by bin/osh and bin/oil.
Args:
lang: 'osh' or 'oil'
argv0, arg_r: command line arguments
environ: environment
login_shell: Was - on the front?
loader: to get help, version, grammar, etc.
line_input: optional GNU readline
"""
# Differences between osh and oil:
# - --help? I guess Oil has a SUPERSET of OSH options.
# - oshrc vs oilrc
# - shopt -s oil:all
# - Change the prompt in the interactive shell?
# osh-pure:
# - no oil grammar
# - no expression evaluator
# - no interactive shell, or line_input
# - no process.*
# process.{ExternalProgram,Waiter,FdState,JobState,SignalState} -- we want
# to evaluate config files without any of these
# Modules not translated yet: completion, comp_ui, builtin_comp, process
# - word evaluator
# - shouldn't glob? set -o noglob? or hard failure?
# - ~ shouldn't read from the file system
# - I guess it can just be the HOME=HOME?
# Builtin:
# shellvm -c 'echo hi'
# shellvm <<< 'echo hi'
argv0 = arg_r.Peek()
assert argv0 is not None
arg_r.Next()
assert lang in ('osh', 'oil'), lang
try:
attrs = flag_spec.ParseMore('main', arg_r)
except error.Usage as e:
stderr_line('osh usage error: %s', e.msg)
return 2
flag = arg_types.main(attrs.attrs)
arena = alloc.Arena()
errfmt = ui.ErrorFormatter(arena)
help_builtin = builtin_misc.Help(loader, errfmt)
if flag.help:
help_builtin.Run(MakeBuiltinArgv(['%s-usage' % lang]))
return 0
if flag.version:
# OSH version is the only binary in Oil right now, so it's all one version.
pyutil.ShowAppVersion('Oil', loader)
return 0
no_str = None # type: str
debug_stack = [] # type: List[state.DebugFrame]
if arg_r.AtEnd():
dollar0 = argv0
else:
dollar0 = arg_r.Peek() # the script name, or the arg after -c
# Copy quirky bash behavior.
frame0 = state.DebugFrame(dollar0, 'main', no_str, state.LINE_ZERO, 0,
0)
debug_stack.append(frame0)
# Copy quirky bash behavior.
frame1 = state.DebugFrame(no_str, no_str, no_str, runtime.NO_SPID, 0, 0)
debug_stack.append(frame1)
script_name = arg_r.Peek() # type: Optional[str]
arg_r.Next()
mem = state.Mem(dollar0, arg_r.Rest(), arena, debug_stack)
version_str = pyutil.GetVersion(loader)
state.InitMem(mem, environ, version_str)
procs = {} # type: Dict[str, command__ShFunction]
job_state = process.JobState()
fd_state = process.FdState(errfmt, job_state, mem)
opt_hook = state.OptHook()
parse_opts, exec_opts, mutable_opts = state.MakeOpts(mem, opt_hook)
# TODO: only MutableOpts needs mem, so it's not a true circular dep.
mem.exec_opts = exec_opts # circular dep
if attrs.show_options: # special case: sh -o
mutable_opts.ShowOptions([])
return 0
# Set these BEFORE processing flags, so they can be overridden.
if lang == 'oil':
mutable_opts.SetShoptOption('oil:all', True)
builtin_pure.SetShellOpts(mutable_opts, attrs.opt_changes,
attrs.shopt_changes)
# feedback between runtime and parser
aliases = {} # type: Dict[str, str]
oil_grammar = None # type: grammar.Grammar
#oil_grammar = pyutil.LoadOilGrammar(loader)
if flag.one_pass_parse and not exec_opts.noexec():
e_usage('--one-pass-parse requires noexec (-n)')
parse_ctx = parse_lib.ParseContext(arena, parse_opts, aliases, oil_grammar)
parse_ctx.Init_OnePassParse(flag.one_pass_parse)
# Three ParseContext instances SHARE aliases.
comp_arena = alloc.Arena()
comp_arena.PushSource(source.Unused('completion'))
trail1 = parse_lib.Trail()
# one_pass_parse needs to be turned on to complete inside backticks. TODO:
# fix the issue where ` gets erased because it's not part of
# set_completer_delims().
comp_ctx = parse_lib.ParseContext(comp_arena, parse_opts, aliases,
oil_grammar)
comp_ctx.Init_Trail(trail1)
comp_ctx.Init_OnePassParse(True)
hist_arena = alloc.Arena()
hist_arena.PushSource(source.Unused('history'))
trail2 = parse_lib.Trail()
hist_ctx = parse_lib.ParseContext(hist_arena, parse_opts, aliases,
oil_grammar)
hist_ctx.Init_Trail(trail2)
# Deps helps manages dependencies. These dependencies are circular:
# - cmd_ev and word_ev, arith_ev -- for command sub, arith sub
# - arith_ev and word_ev -- for $(( ${a} )) and $x$(( 1 ))
# - cmd_ev and builtins (which execute code, like eval)
# - prompt_ev needs word_ev for $PS1, which needs prompt_ev for @P
cmd_deps = cmd_eval.Deps()
cmd_deps.mutable_opts = mutable_opts
# TODO: In general, cmd_deps are shared between the mutually recursive
# evaluators. Some of the four below are only shared between a builtin and
# the CommandEvaluator, so we could put them somewhere else.
cmd_deps.traps = {}
cmd_deps.trap_nodes = [] # TODO: Clear on fork() to avoid duplicates
waiter = process.Waiter(job_state, exec_opts)
my_pid = posix.getpid()
debug_path = ''
debug_dir = environ.get('OSH_DEBUG_DIR')
if flag.debug_file is not None:
# --debug-file takes precedence over OSH_DEBUG_DIR
debug_path = flag.debug_file
elif debug_dir is not None:
debug_path = os_path.join(debug_dir, '%d-osh.log' % my_pid)
if len(debug_path):
raise NotImplementedError()
else:
debug_f = util.NullDebugFile() # type: util._DebugFile
cmd_deps.debug_f = debug_f
# Not using datetime for dependency reasons. TODO: maybe show the date at
# the beginning of the log, and then only show time afterward? To save
# space, and make space for microseconds. (datetime supports microseconds
# but time.strftime doesn't).
if mylib.PYTHON:
iso_stamp = time_.strftime("%Y-%m-%d %H:%M:%S")
debug_f.log('%s [%d] OSH started with argv %s', iso_stamp, my_pid,
arg_r.argv)
if len(debug_path):
debug_f.log('Writing logs to %r', debug_path)
interp = environ.get('OSH_HIJACK_SHEBANG', '')
search_path = state.SearchPath(mem)
ext_prog = process.ExternalProgram(interp, fd_state, errfmt, debug_f)
splitter = split.SplitContext(mem)
# This could just be OSH_DEBUG_STREAMS='debug crash' ? That might be
# stuffing too much into one, since a .json crash dump isn't a stream.
crash_dump_dir = environ.get('OSH_CRASH_DUMP_DIR', '')
cmd_deps.dumper = dev.CrashDumper(crash_dump_dir)
if flag.xtrace_to_debug_file:
trace_f = debug_f
else:
trace_f = util.DebugFile(mylib.Stderr())
#comp_lookup = completion.Lookup()
# Various Global State objects to work around readline interfaces
#compopt_state = completion.OptionState()
#comp_ui_state = comp_ui.State()
#prompt_state = comp_ui.PromptState()
dir_stack = state.DirStack()
#
# Initialize builtins that don't depend on evaluators
#
builtins = {} # type: Dict[int, vm._Builtin]
AddPure(builtins, mem, procs, mutable_opts, aliases, search_path, errfmt)
AddIO(builtins, mem, dir_stack, exec_opts, splitter, parse_ctx, errfmt)
builtins[builtin_i.help] = help_builtin
#
# Initialize Evaluators
#
arith_ev = sh_expr_eval.ArithEvaluator(mem, exec_opts, parse_ctx, errfmt)
bool_ev = sh_expr_eval.BoolEvaluator(mem, exec_opts, parse_ctx, errfmt)
expr_ev = None # type: expr_eval.OilEvaluator
word_ev = word_eval.NormalWordEvaluator(mem, exec_opts, splitter, errfmt)
assign_b = InitAssignmentBuiltins(mem, procs, errfmt)
cmd_ev = cmd_eval.CommandEvaluator(mem, exec_opts, errfmt, procs, assign_b,
arena, cmd_deps)
shell_ex = executor.ShellExecutor(mem, exec_opts, mutable_opts, procs,
builtins, search_path, ext_prog, waiter,
job_state, fd_state, errfmt)
#shell_ex = NullExecutor(exec_opts, mutable_opts, procs, builtins)
# PromptEvaluator rendering is needed in non-interactive shells for @P.
prompt_ev = prompt.Evaluator(lang, parse_ctx, mem)
tracer = dev.Tracer(parse_ctx, exec_opts, mutable_opts, mem, word_ev,
trace_f)
# Wire up circular dependencies.
vm.InitCircularDeps(arith_ev, bool_ev, expr_ev, word_ev, cmd_ev, shell_ex,
prompt_ev, tracer)
#
# Initialize builtins that depend on evaluators
#
# note: 'printf -v a[i]' and 'unset a[i]' require same deps
builtins[builtin_i.printf] = builtin_printf.Printf(mem, exec_opts,
parse_ctx, arith_ev,
errfmt)
builtins[builtin_i.unset] = builtin_assign.Unset(mem, exec_opts, procs,
parse_ctx, arith_ev,
errfmt)
builtins[builtin_i.eval] = builtin_meta.Eval(parse_ctx, exec_opts, cmd_ev)
#source_builtin = builtin_meta.Source(parse_ctx, search_path, cmd_ev,
#fd_state, errfmt)
#builtins[builtin_i.source] = source_builtin
#builtins[builtin_i.dot] = source_builtin
AddMeta(builtins, shell_ex, mutable_opts, mem, procs, aliases, search_path,
errfmt)
AddBlock(builtins, mem, mutable_opts, dir_stack, cmd_ev, errfmt)
#sig_state = process.SignalState()
#sig_state.InitShell()
#builtins[builtin_i.trap] = builtin_process.Trap(sig_state, cmd_deps.traps,
# cmd_deps.trap_nodes,
# parse_ctx, errfmt)
if flag.c is not None:
arena.PushSource(source.CFlag())
line_reader = reader.StringLineReader(flag.c,
arena) # type: reader._Reader
if flag.i: # -c and -i can be combined
mutable_opts.set_interactive()
elif flag.i: # force interactive
raise NotImplementedError()
else:
if script_name is None:
stdin = mylib.Stdin()
arena.PushSource(source.Stdin(''))
line_reader = reader.FileLineReader(stdin, arena)
else:
arena.PushSource(source.MainFile(script_name))
try:
f = fd_state.Open(script_name)
#f = mylib.open(script_name)
except OSError as e:
stderr_line("osh: Couldn't open %r: %s", script_name,
pyutil.strerror(e))
return 1
line_reader = reader.FileLineReader(f, arena)
# TODO: assert arena.NumSourcePaths() == 1
# TODO: .rc file needs its own arena.
c_parser = parse_ctx.MakeOshParser(line_reader)
if exec_opts.interactive():
raise NotImplementedError()
if exec_opts.noexec():
status = 0
try:
node = main_loop.ParseWholeFile(c_parser)
except error.Parse as e:
ui.PrettyPrintError(e, arena)
status = 2
if status == 0:
if flag.parser_mem_dump is not None: # only valid in -n mode
input_path = '/proc/%d/status' % posix.getpid()
pyutil.CopyFile(input_path, flag.parser_mem_dump)
ui.PrintAst(node, flag)
else:
if flag.parser_mem_dump is not None:
e_usage('--parser-mem-dump can only be used with -n')
try:
status = main_loop.Batch(cmd_ev,
c_parser,
arena,
cmd_flags=cmd_eval.IsMainProgram)
except util.UserExit as e:
status = e.status
box = [status]
cmd_ev.MaybeRunExitTrap(box)
status = box[0]
# NOTE: 'exit 1' is ControlFlow and gets here, but subshell/commandsub
# don't because they call sys.exit().
if flag.runtime_mem_dump is not None:
input_path = '/proc/%d/status' % posix.getpid()
pyutil.CopyFile(input_path, flag.runtime_mem_dump)
# NOTE: We haven't closed the file opened with fd_state.Open
return status
