def setup(self):
# create def cfg
if self.lib_mgr_cfg is None:
self.lib_mgr_cfg = LibMgrCfg()
# create segment loader
self.seg_loader = SegmentLoader(self.alloc, self.path_mgr)
# setup contexts
odg_base = self.mem_map.get_old_dos_guard_base()
self.exec_ctx = ExecLibCtx(self.machine, self.alloc, self.seg_loader,
self.path_mgr)
self.dos_ctx = DosLibCtx(self.machine, self.alloc, self.seg_loader,
self.path_mgr, self.scheduler, odg_base)
# create lib mgr
self.lib_mgr = LibManager(self.machine,
self.alloc,
self.seg_loader,
self.lib_mgr_cfg,
main_profiler=self.main_profiler)
self.lib_mgr.add_ctx('exec.library', self.exec_ctx)
self.lib_mgr.add_ctx('dos.library', self.dos_ctx)
# add all vamos libs
for name in vamos_libs:
cls = vamos_libs[name]
self.lib_mgr.add_impl_cls(name, cls)
# setup scheduler call back
self.scheduler.set_cur_task_callback(self.cur_task_callback)
# return lib_mgr
return self.lib_mgr
def setup(self, vamos_legacy):
# create def cfg
if self.lib_mgr_cfg is None:
self.lib_mgr_cfg = LibMgrCfg()
# create segment loader
self.seg_loader = SegmentLoader(self.alloc, self.path_mgr)
# setup contexts
self.exec_ctx = ExecLibCtx(self.machine, self.alloc, self.seg_loader,
self.path_mgr)
self.dos_ctx = DosLibCtx(self.machine, self.alloc, self.seg_loader,
self.path_mgr, vamos_legacy)
# create lib mgr
self.lib_mgr = LibManager(self.machine,
self.alloc,
self.seg_loader,
self.lib_mgr_cfg,
profiler_cfg=self.profiler_cfg)
self.lib_mgr.add_ctx('exec.library', self.exec_ctx)
self.lib_mgr.add_ctx('dos.library', self.dos_ctx)
# add all vamos libs
for name in vamos_libs:
cls = vamos_libs[name]
self.lib_mgr.add_impl_cls(name, cls)
# finally bootstrap exec
self.lib_mgr.bootstrap_exec()
# return lib_mgr
return self.lib_mgr
def setup(self):
# create def cfg
if self.lib_mgr_cfg is None:
self.lib_mgr_cfg = LibMgrCfg()
# create segment loader
self.seg_loader = SegmentLoader(self.alloc, self.path_mgr)
# setup contexts
odg_base = self.mem_map.get_old_dos_guard_base()
self.exec_ctx = ExecLibCtx(self.machine, self.alloc,
self.seg_loader, self.path_mgr)
self.dos_ctx = DosLibCtx(self.machine, self.alloc,
self.seg_loader, self.path_mgr, self.scheduler,
odg_base)
# create lib mgr
self.lib_mgr = LibManager(self.machine, self.alloc, self.seg_loader,
self.lib_mgr_cfg,
main_profiler=self.main_profiler)
self.lib_mgr.add_ctx('exec.library', self.exec_ctx)
self.lib_mgr.add_ctx('dos.library', self.dos_ctx)
# add all vamos libs
for name in vamos_libs:
cls = vamos_libs[name]
self.lib_mgr.add_impl_cls(name, cls)
# setup scheduler call back
self.scheduler.set_cur_task_callback(self.cur_task_callback)
# return lib_mgr
return self.lib_mgr
def setup(profiler_cfg=None):
machine = Machine()
alloc = MemoryAlloc(machine.get_mem(), machine.get_ram_begin())
mgr = VLibManager(machine, alloc, profiler_cfg=profiler_cfg)
# setup ctx map
cpu = machine.get_cpu()
mem = machine.get_mem()
cpu_type = machine.get_cpu_type()
segloader = SegmentLoader(alloc)
exec_ctx = ExecLibCtx(machine, alloc, segloader, None)
mgr.add_ctx('exec.library', exec_ctx)
return machine, alloc, mgr
def setup(main_profiler=None, prof_names=None, prof_calls=False):
machine = Machine()
alloc = MemoryAlloc(machine.get_mem(), machine.get_ram_begin())
mgr = VLibManager(machine,
alloc,
main_profiler=main_profiler,
prof_names=prof_names,
prof_calls=prof_calls)
# setup ctx map
cpu = machine.get_cpu()
mem = machine.get_mem()
cpu_type = machine.get_cpu_type()
segloader = SegmentLoader(alloc)
exec_ctx = ExecLibCtx(machine, alloc, segloader, None)
mgr.add_ctx('exec.library', exec_ctx)
mgr.add_impl_cls('exec.library', ExecLibrary)
mgr.add_impl_cls('vamostest.library', VamosTestLibrary)
mgr.add_impl_cls('vamostestdev.device', VamosTestDevice)
return machine, alloc, mgr
def setup(path_mgr=None, cfg=None, profiler_cfg=None):
log_libmgr.setLevel(logging.INFO)
log_exec.setLevel(logging.INFO)
machine = Machine()
# machine.show_instr(True)
sp = machine.get_ram_begin() - 4
alloc = MemoryAlloc.for_machine(machine)
segloader = SegmentLoader(alloc, path_mgr)
mgr = LibManager(machine,
alloc,
segloader,
cfg=cfg,
profiler_cfg=profiler_cfg)
# setup ctx map
cpu = machine.get_cpu()
mem = machine.get_mem()
cpu_type = machine.get_cpu_type()
exec_ctx = ExecLibCtx(machine, alloc, segloader, path_mgr)
mgr.add_ctx('exec.library', exec_ctx)
dos_ctx = DosLibCtx(machine, alloc, segloader, path_mgr, None, None)
mgr.add_ctx('dos.library', dos_ctx)
return machine, alloc, mgr, sp
def setup(path_mgr=None):
log_libmgr.setLevel(logging.INFO)
log_exec.setLevel(logging.INFO)
machine = Machine()
# machine.show_instr(True)
sp = machine.get_ram_begin() - 4
alloc = MemoryAlloc.for_machine(machine)
segloader = SegmentLoader(alloc, path_mgr)
cfg = LibMgrCfg()
mgr = LibManager(machine, alloc, segloader, cfg)
# setup ctx map
cpu = machine.get_cpu()
mem = machine.get_mem()
cpu_type = machine.get_cpu_type()
exec_ctx = ExecLibCtx(machine, alloc, segloader, path_mgr, mgr)
mgr.add_ctx("exec.library", exec_ctx)
mgr.add_impl_cls("exec.library", ExecLibrary)
dos_ctx = DosLibCtx(machine, alloc, segloader, path_mgr, None, None)
mgr.add_ctx("dos.library", dos_ctx)
mgr.add_impl_cls("dos.library", DosLibrary)
mgr.add_impl_cls("vamostest.library", VamosTestLibrary)
mgr.add_impl_cls("vamostestdev.device", VamosTestDevice)
return machine, alloc, mgr, sp, cfg
def setup_env(main_profiler=None, prof_names=None, prof_calls=False):
machine = Machine()
alloc = MemoryAlloc(machine.get_mem(), machine.get_ram_begin())
mgr = VLibManager(
machine,
alloc,
main_profiler=main_profiler,
prof_names=prof_names,
prof_calls=prof_calls,
)
# setup ctx map
cpu = machine.get_cpu()
mem = machine.get_mem()
cpu_type = machine.get_cpu_type()
segloader = SegmentLoader(alloc)
exec_ctx = ExecLibCtx(machine, alloc, segloader, None, None)
# add extra attr to ctx
mgr.set_ctx_extra_attr("foo", "bar")
mgr.add_ctx("exec.library", exec_ctx)
mgr.add_impl_cls("exec.library", ExecLibrary)
mgr.add_impl_cls("vamostest.library", VamosTestLibrary)
mgr.add_impl_cls("vamostestdev.device", VamosTestDevice)
return machine, alloc, mgr
def __init__(self, machine, cfg):
self.machine = machine
self.mem = machine.get_mem()
self.raw_mem = self.mem
self.ram_size = self.mem.get_ram_size_bytes()
self.cpu = machine.get_cpu()
self.cpu_type = machine.get_cpu_type()
self.traps = machine.get_traps()
self.cfg = cfg
# too much RAM requested?
# our "custom chips" start at $BFxxxx so we allow RAM only to be below
if self.ram_size >= 0xbf0000 and self.cfg.hw_access != "disable":
raise VamosConfigError(
"Too much RAM configured! Only up to $BF0000 allowed.")
# setup custom chips
if self.cfg.hw_access != "disable":
self.hw_access = HardwareAccess(self.mem)
self._setup_hw_access()
# path manager
self.path_mgr = PathManager(cfg)
# create a label manager and error tracker
self.label_mgr = machine.get_label_mgr()
# set a label for first region
if self.label_mgr:
label = LabelRange("vbr", 0, 0x400)
self.label_mgr.add_label(label)
# shutdown range
label = LabelRange("machine", 0x400, 0x800)
self.label_mgr.add_label(label)
# create memory access
self.trace_mgr = TraceManager(self.cpu, self.label_mgr)
if cfg.internal_memory_trace:
self.mem = TraceMemory(self.mem, self.trace_mgr)
if not log_mem_int.isEnabledFor(logging.INFO):
log_mem_int.setLevel(logging.INFO)
# enable mem trace?
if cfg.memory_trace:
self.machine.set_cpu_mem_trace_hook(self.trace_mgr.trace_mem)
if not log_mem.isEnabledFor(logging.INFO):
log_mem.setLevel(logging.INFO)
# instr trace
if cfg.instr_trace:
if not log_instr.isEnabledFor(logging.INFO):
log_instr.setLevel(logging.INFO)
cpu = self.cpu
trace_mgr = self.trace_mgr
state = CPUState()
def instr_hook():
# add register dump
if cfg.reg_dump:
state.get(cpu)
res = state.dump()
for r in res:
log_instr.info(r)
# disassemble line
pc = cpu.r_reg(REG_PC)
trace_mgr.trace_code_line(pc)
self.machine.set_instr_hook(instr_hook)
# create memory allocator
self.mem_begin = 0x1000
self.mem_size = self.ram_size - self.mem_begin
self.alloc = MemoryAlloc(self.mem, self.mem_begin, self.mem_size,
self.label_mgr)
# create segment loader
self.seg_loader = SegmentLoader(self.alloc, self.path_mgr)
# setup lib manager
profiler_cfg = self._get_profiler_config(cfg)
self.exec_ctx = ExecLibCtx(self.machine, self.alloc, self.seg_loader,
self.path_mgr)
self.dos_ctx = DosLibCtx(self.machine, self.alloc, self.seg_loader,
self.path_mgr, self.run_command,
self.start_sub_process)
self.lib_mgr = LibManager(self.machine,
self.alloc,
self.seg_loader,
self.cfg,
profiler_cfg=profiler_cfg)
self.lib_mgr.add_ctx('exec.library', self.exec_ctx)
self.lib_mgr.add_ctx('dos.library', self.dos_ctx)
self.lib_mgr.bootstrap_exec()
# no current process right now
self.process = None
self.proc_list = []
class Vamos:
def __init__(self, machine, cfg):
self.machine = machine
self.mem = machine.get_mem()
self.raw_mem = self.mem
self.ram_size = self.mem.get_ram_size_bytes()
self.cpu = machine.get_cpu()
self.cpu_type = machine.get_cpu_type()
self.traps = machine.get_traps()
self.cfg = cfg
# too much RAM requested?
# our "custom chips" start at $BFxxxx so we allow RAM only to be below
if self.ram_size >= 0xbf0000 and self.cfg.hw_access != "disable":
raise VamosConfigError(
"Too much RAM configured! Only up to $BF0000 allowed.")
# setup custom chips
if self.cfg.hw_access != "disable":
self.hw_access = HardwareAccess(self.mem)
self._setup_hw_access()
# path manager
self.path_mgr = PathManager(cfg)
# create a label manager and error tracker
self.label_mgr = machine.get_label_mgr()
# set a label for first region
if self.label_mgr:
label = LabelRange("vbr", 0, 0x400)
self.label_mgr.add_label(label)
# shutdown range
label = LabelRange("machine", 0x400, 0x800)
self.label_mgr.add_label(label)
# create memory access
self.trace_mgr = TraceManager(self.cpu, self.label_mgr)
if cfg.internal_memory_trace:
self.mem = TraceMemory(self.mem, self.trace_mgr)
if not log_mem_int.isEnabledFor(logging.INFO):
log_mem_int.setLevel(logging.INFO)
# enable mem trace?
if cfg.memory_trace:
self.machine.set_cpu_mem_trace_hook(self.trace_mgr.trace_mem)
if not log_mem.isEnabledFor(logging.INFO):
log_mem.setLevel(logging.INFO)
# instr trace
if cfg.instr_trace:
if not log_instr.isEnabledFor(logging.INFO):
log_instr.setLevel(logging.INFO)
cpu = self.cpu
trace_mgr = self.trace_mgr
state = CPUState()
def instr_hook():
# add register dump
if cfg.reg_dump:
state.get(cpu)
res = state.dump()
for r in res:
log_instr.info(r)
# disassemble line
pc = cpu.r_reg(REG_PC)
trace_mgr.trace_code_line(pc)
self.machine.set_instr_hook(instr_hook)
# create memory allocator
self.mem_begin = 0x1000
self.mem_size = self.ram_size - self.mem_begin
self.alloc = MemoryAlloc(self.mem, self.mem_begin, self.mem_size,
self.label_mgr)
# create segment loader
self.seg_loader = SegmentLoader(self.alloc, self.path_mgr)
# setup lib manager
profiler_cfg = self._get_profiler_config(cfg)
self.exec_ctx = ExecLibCtx(self.machine, self.alloc, self.seg_loader,
self.path_mgr)
self.dos_ctx = DosLibCtx(self.machine, self.alloc, self.seg_loader,
self.path_mgr, self.run_command,
self.start_sub_process)
self.lib_mgr = LibManager(self.machine,
self.alloc,
self.seg_loader,
self.cfg,
profiler_cfg=profiler_cfg)
self.lib_mgr.add_ctx('exec.library', self.exec_ctx)
self.lib_mgr.add_ctx('dos.library', self.dos_ctx)
self.lib_mgr.bootstrap_exec()
# no current process right now
self.process = None
self.proc_list = []
def _get_profiler_config(self, cfg):
profile_libs = cfg.profile_libs
if profile_libs:
profile_libs = profile_libs.split(",")
profiler_cfg = LibProfilerConfig(profiling=cfg.profile,
all_libs=cfg.profile_all_libs,
libs=profile_libs,
add_samples=cfg.profile_samples,
file=cfg.profile_file,
append=cfg.profile_file_append,
dump=cfg.profile_dump)
return profiler_cfg
def init(self, binary, arg_str, stack_size, shell, cwd):
self.create_old_dos_guard()
self.open_base_libs()
return self.setup_main_proc(binary, arg_str, stack_size, shell, cwd)
def cleanup(self, ok):
self.cleanup_main_proc()
self.close_base_libs()
# shutdown of libmgr needs temp stack
sp = self.machine.get_ram_begin() - 4
self.lib_mgr.shutdown(run_sp=sp)
if ok:
self.alloc.dump_orphans()
# ----- system setup -----
def _setup_hw_access(self):
# direct hw access
cfg = self.cfg
if cfg.hw_access == "emu":
self.hw_access.set_mode(HardwareAccess.MODE_EMU)
elif cfg.hw_access == "ignore":
self.hw_access.set_mode(HardwareAccess.MODE_IGNORE)
elif cfg.hw_access == "abort":
self.hw_access.set_mode(HardwareAccess.MODE_ABORT)
elif cfg.hw_access == "disable":
pass
else:
raise VamosConfigError("Invalid HW Access mode: %s" %
cfg.hw_access)
# ----- process handling -----
def _set_this_task(self, proc):
"""tell exec about this process and all others referencing process from here"""
self.process = proc
self.exec_ctx.set_process(proc)
self.exec_lib.set_this_task(proc)
self.dos_ctx.set_process(proc)
def get_current_process(self):
return self.process
def start_sub_process(self, proc):
log_proc.info("start sub process: %s", proc)
self.proc_list.append(proc)
self._set_this_task(proc)
# setup trampoline to enter sub process
tr = Trampoline(self, "SubProcJump")
# reserve a long for old stack
old_stack_off = tr.dc_l(0)
# code starts
tr.save_all_but_d0()
# new proc registers: d0=arg_len a0=arg_cptr
tr.set_dx_l(0, proc.arg_len)
tr.set_ax_l(0, proc.arg_base)
# d2=stack_size. this value is also in 4(sp) (see Process.init_stack), but
# various C programs rely on it being present (1.3-3.1 at least have it).
tr.set_dx_l(2, proc.stack_size)
# to track old dos values
tr.set_ax_l(2, self.dos_guard_base)
tr.set_ax_l(5, self.dos_guard_base)
tr.set_ax_l(6, self.dos_guard_base)
# save old stack and set new stack
tr.write_ax_l(7, old_stack_off,
True) # write to data offset (dc.l above)
new_stack = proc.stack_initial
tr.set_ax_l(7, new_stack)
# call code! (jmp - return value is on stack)
tr.jmp(proc.prog_start)
# restore stack (set a label to return from new stack - see below)
return_off = tr.get_code_offset()
tr.read_ax_l(7, old_stack_off,
True) # read from data offset (dc.l above)
# restore regs
tr.restore_all_but_d0()
# trap to clean up sub process resources
def trap_stop_sub_process():
self.stop_sub_process()
tr.final_rts(trap_stop_sub_process)
# realize trampoline in memory (data+code)
tr.done()
# get label addr -> set as return value of new stack
return_addr = tr.get_code_addr(return_off)
log_proc.debug("new_stack=%06x return_addr=%06x", new_stack,
return_addr)
# place return address for new process
self.mem.w32(new_stack, return_addr)
def stop_sub_process(self):
# get return value
ret_code = self.cpu.r_reg(REG_D0)
# pop process
proc = self.proc_list.pop()
log_proc.info("stop sub process: %s ret_code=%d", proc, ret_code)
proc.free()
# ----- overload a process for RunCommand -----
def run_command(self, start_pc, argsptr, arglen, stacksize):
newstack = self.alloc.alloc_memory("shell command stack", stacksize)
newstackbase = newstack.addr
newstacktop = newstackbase + stacksize
oldstackbase = self.process.this_task.access.r_s("pr_Task.tc_SPLower")
oldstacktop = self.process.this_task.access.r_s("pr_Task.tc_SPUpper")
old_stackptr = self.cpu.r_reg(REG_A7) # addr of sys call return
# put stack size on top of stack
self.mem.w32(newstacktop - 4, stacksize)
# activate new stack
new_stackptr = newstacktop - 8
self.process.this_task.access.w_s("pr_Task.tc_SPLower", newstackbase)
self.process.this_task.access.w_s("pr_Task.tc_SPUpper", newstacktop)
# NOTE: the Manx fexec and BPCL mess is not (yet) setup here.
# setup trampoline to enter sub process
tr = Trampoline(self, "RunCommand")
# reserve a long for old stack
old_stack_off = tr.dc_l(0)
# code starts
tr.save_all_but_d0()
# new proc registers: d0=arg_len a0=arg_cptr
tr.set_dx_l(0, arglen)
tr.set_ax_l(0, argsptr)
# d2=stack_size. this value is also in 4(sp) (see Process.init_stack), but
# various C programs rely on it being present (1.3-3.1 at least have it).
tr.set_dx_l(2, stacksize)
# to track old dos values
tr.set_ax_l(2, self.dos_guard_base)
tr.set_ax_l(5, self.dos_guard_base)
tr.set_ax_l(6, self.dos_guard_base)
# save old stack and set new stack
tr.write_ax_l(7, old_stack_off,
True) # write to data offset (dc.l above)
tr.set_ax_l(7, new_stackptr)
# call code! (jmp - return value is on stack)
tr.jmp(start_pc)
# restore stack (set a label to return from new stack - see below)
return_off = tr.get_code_offset()
tr.read_ax_l(7, old_stack_off,
True) # read from data offset (dc.l above)
# restore regs
tr.restore_all_but_d0()
# keep the old input file handle
input_fh = self.process.get_input()
# trap to clean up sub process resources
def trap_stop_run_command():
ret_code = self.cpu.r_reg(REG_D0)
log_proc.info("return from RunCommand: ret_code=%d", ret_code)
self.cpu.w_reg(REG_A7, old_stackptr)
self.process.this_task.access.w_s("pr_Task.tc_SPLower",
oldstackbase)
self.process.this_task.access.w_s("pr_Task.tc_SPUpper",
oldstacktop)
self.alloc.free_memory(newstack)
input_fh.setbuf("")
# The return code remains in d0 as is
tr.final_rts(trap_stop_run_command)
# realize trampoline in memory (data+code)
tr.done()
# get label addr -> set as return value of new stack
return_addr = tr.get_code_addr(return_off)
log_proc.debug("new_stack=%06x return_addr=%06x", new_stackptr,
return_addr)
# place return address for new process
self.mem.w32(new_stackptr, return_addr)
def run_shell(self, start_pc, packet, stacksize, trap_stop_handler):
newstack = self.alloc.alloc_memory("shell command stack", stacksize)
newstackbase = newstack.addr
newstacktop = newstackbase + stacksize
oldstackbase = self.process.this_task.access.r_s("pr_Task.tc_SPLower")
oldstacktop = self.process.this_task.access.r_s("pr_Task.tc_SPUpper")
old_stackptr = self.cpu.r_reg(REG_A7) # addr of sys call return
# put stack size on top of stack
self.mem.w32(newstacktop - 4, stacksize)
# activate new stack
new_stackptr = newstacktop - 8
self.process.this_task.access.w_s("pr_Task.tc_SPLower", newstackbase)
self.process.this_task.access.w_s("pr_Task.tc_SPUpper", newstacktop)
# NOTE: the Manx fexec and BPCL mess is not (yet) setup here.
# setup trampoline to enter sub process
tr = Trampoline(self, "RunCommand")
# reserve a long for old stack
old_stack_off = tr.dc_l(0)
# code starts
tr.save_all_but_d0()
# new proc registers: d1=packet
tr.set_dx_l(1, packet >> 2)
# d2=stack_size. this value is also in 4(sp) (see Process.init_stack), but
# various C programs rely on it being present (1.3-3.1 at least have it).
tr.set_dx_l(2, stacksize)
# to track old dos values
tr.set_ax_l(2, self.dos_guard_base)
tr.set_ax_l(5, self.dos_guard_base)
tr.set_ax_l(6, self.dos_guard_base)
# save old stack and set new stack
tr.write_ax_l(7, old_stack_off,
True) # write to data offset (dc.l above)
tr.set_ax_l(7, new_stackptr)
# call code! (jmp - return value is on stack)
tr.jmp(start_pc)
# restore stack (set a label to return from new stack - see below)
return_off = tr.get_code_offset()
tr.read_ax_l(7, old_stack_off,
True) # read from data offset (dc.l above)
# restore regs
tr.restore_all_but_d0()
def trap_stop_function():
ret_code = self.cpu.r_reg(REG_D0)
log_proc.info("return from SystemTagList: ret_code=%d", ret_code)
self.cpu.w_reg(REG_A7, old_stackptr)
self.process.this_task.access.w_s("pr_Task.tc_SPLower",
oldstackbase)
self.process.this_task.access.w_s("pr_Task.tc_SPUpper",
oldstacktop)
self.alloc.free_memory(newstack)
trap_stop_handler(ret_code)
tr.final_rts(trap_stop_function)
# realize trampoline in memory (data+code)
tr.done()
# get label addr -> set as return value of new stack
return_addr = tr.get_code_addr(return_off)
log_proc.debug("new_stack=%06x return_addr=%06x", new_stackptr,
return_addr)
# place return address for new process
self.mem.w32(new_stackptr, return_addr)
# ----- init environment -----
def open_base_libs(self):
log_main.info("open_base_libs")
# open exec lib
self.exec_addr = self.lib_mgr.open_lib('exec.library', 0)
exec_vlib = self.lib_mgr.get_vlib_by_addr(self.exec_addr)
self.exec_lib = exec_vlib.get_impl()
# link exec to dos
self.dos_ctx.set_exec_lib(self.exec_lib)
# open dos lib
self.dos_addr = self.lib_mgr.open_lib('dos.library', 0)
dos_vlib = self.lib_mgr.get_vlib_by_addr(self.dos_addr)
self.dos_lib = dos_vlib.get_impl()
self.dos_ctx.set_dos_lib(self.dos_lib)
# set exec base @4
self.machine.set_zero_mem(0, self.exec_addr)
def close_base_libs(self):
log_main.info("close_base_libs")
# close dos
self.lib_mgr.close_lib(self.dos_addr)
# close exec
self.lib_mgr.close_lib(self.exec_addr)
def create_old_dos_guard(self):
# create a guard memory for tracking invalid old dos access
self.dos_guard_base = self.raw_mem.reserve_special_range()
self.dos_guard_size = 0x010000
if self.label_mgr:
label = LabelRange("old_dos guard", self.dos_guard_base,
self.dos_guard_size)
self.label_mgr.add_label(label)
log_mem_init.info(label)
# ----- main process -----
def setup_main_proc(self, binary, arg_str, stack_size, shell, cwd):
proc = Process(self.dos_ctx,
binary,
arg_str,
stack_size=stack_size,
shell=shell,
cwd=cwd)
if not proc.ok:
return False
log_proc.info("set main process: %s", proc)
self.proc_list.append(proc)
self._set_this_task(proc)
self.main_proc = proc
return True
def get_initial_sp(self):
return self.main_proc.get_initial_sp()
def get_initial_pc(self):
return self.main_proc.get_initial_pc()
def get_initial_regs(self):
regs = self.main_proc.get_initial_regs()
# to track old dos values
regs[REG_A2] = self.dos_guard_base
regs[REG_A5] = self.dos_guard_base
regs[REG_A6] = self.dos_guard_base
return regs
def cleanup_main_proc(self):
self.main_proc.free()
class SetupLibManager(object):
def __init__(self,
machine,
mem_map,
scheduler,
path_mgr,
lib_cfg=None,
main_profiler=None):
self.machine = machine
self.mem_map = mem_map
self.path_mgr = path_mgr
self.scheduler = scheduler
self.alloc = mem_map.get_alloc()
self.lib_mgr_cfg = lib_cfg
self.main_profiler = main_profiler
# state
self.seg_loader = None
self.exec_ctx = None
self.dos_ctx = None
self.lib_mgr = None
def parse_config(self, cfg):
if not cfg:
return True
self.lib_mgr_cfg = LibMgrCfg.from_dict(cfg)
return True
def setup(self):
# create def cfg
if self.lib_mgr_cfg is None:
self.lib_mgr_cfg = LibMgrCfg()
# create segment loader
self.seg_loader = SegmentLoader(self.alloc, self.path_mgr)
# setup contexts
odg_base = self.mem_map.get_old_dos_guard_base()
self.exec_ctx = ExecLibCtx(self.machine, self.alloc, self.seg_loader,
self.path_mgr)
self.dos_ctx = DosLibCtx(self.machine, self.alloc, self.seg_loader,
self.path_mgr, self.scheduler, odg_base)
# create lib mgr
self.lib_mgr = LibManager(self.machine,
self.alloc,
self.seg_loader,
self.lib_mgr_cfg,
main_profiler=self.main_profiler)
self.lib_mgr.add_ctx('exec.library', self.exec_ctx)
self.lib_mgr.add_ctx('dos.library', self.dos_ctx)
# add all vamos libs
for name in vamos_libs:
cls = vamos_libs[name]
self.lib_mgr.add_impl_cls(name, cls)
# setup scheduler call back
self.scheduler.set_cur_task_callback(self.cur_task_callback)
# return lib_mgr
return self.lib_mgr
def cleanup(self):
# shutdown of libmgr needs temp stack
sp = self.machine.get_ram_begin() - 4
self.lib_mgr.shutdown(run_sp=sp)
def open_base_libs(self):
log_libmgr.info("opening base libs...")
# first bootstrap exec
self.lib_mgr.bootstrap_exec()
# open exec lib
self.exec_addr = self.lib_mgr.open_lib('exec.library', 0)
self.exec_vlib = self.lib_mgr.get_vlib_by_addr(self.exec_addr)
self.exec_impl = self.exec_vlib.get_impl()
log_libmgr.info("open base lib: exec: @%06x", self.exec_addr)
# link exec to dos
self.dos_ctx.set_exec_lib(self.exec_impl)
# open dos lib
self.dos_addr = self.lib_mgr.open_lib('dos.library', 0)
self.dos_vlib = self.lib_mgr.get_vlib_by_addr(self.dos_addr)
self.dos_impl = self.dos_vlib.get_impl()
self.dos_ctx.set_dos_lib(self.dos_impl)
log_libmgr.info("open base lib: dos: @%06x", self.dos_addr)
# set exec base @4
log_libmgr.debug("setting execbase @4")
self.machine.set_zero_mem(0, self.exec_addr)
def close_base_libs(self):
log_libmgr.info("closing base libs...")
# close dos
self.lib_mgr.close_lib(self.dos_addr)
log_libmgr.info("closed dos")
# close exec
self.lib_mgr.close_lib(self.exec_addr)
log_libmgr.info("closed exec")
def cur_task_callback(self, task):
log_libmgr.info("current task: %s", task)
if task:
proc = task.process
self.exec_ctx.set_process(proc)
self.exec_impl.set_this_task(proc)
self.dos_ctx.set_process(proc)
def __init__(self, raw_mem, cpu, traps, cfg):
self.raw_mem = raw_mem
self.ram_size = raw_mem.get_ram_size_kib() * 1024 # in bytes
self.cpu = cpu
self.cpu_type = cfg.cpu
self.traps = traps
self.cfg = cfg
# too much RAM requested?
# our "custom chips" start at $BFxxxx so we allow RAM only to be below
if self.ram_size >= 0xbf0000 and self.cfg.hw_access != "disable":
raise VamosConfigError(
"Too much RAM configured! Only up to $BF0000 allowed.")
# setup custom chips
if self.cfg.hw_access != "disable":
self.hw_access = HardwareAccess(raw_mem)
self._setup_hw_access()
# path manager
self.path_mgr = PathManager(cfg)
def terminate_func():
self.raw_mem.set_all_to_end()
# create a label manager and error tracker
self.label_mgr = LabelManager()
self.error_tracker = ErrorTracker(cpu, self.label_mgr, terminate_func)
self.label_mgr.error_tracker = self.error_tracker
# set a label for first region
label = LabelRange("zero_page", 0, 0x400)
self.label_mgr.add_label(label)
# shutdown range
label = LabelRange("shutdown", 0x400, 0x800)
self.label_mgr.add_label(label)
# create memory access
self.trace_mgr = TraceManager(cpu, self.label_mgr)
if cfg.internal_memory_trace:
self.mem = TraceMemory(raw_mem, self.trace_mgr)
if not log_mem_int.isEnabledFor(logging.INFO):
log_mem_int.setLevel(logging.INFO)
else:
self.mem = raw_mem
self._setup_memory(raw_mem)
# create memory allocator
self.mem_begin = 0x1000
self.mem_size = self.ram_size - self.mem_begin
self.alloc = MemoryAlloc(self.mem, self.mem_begin, self.mem_size,
self.label_mgr)
# create segment loader
self.seg_loader = SegmentLoader(self.mem, self.alloc)
# setup lib context
ctx_map = LibCtxMap()
self.exec_ctx = ExecLibCtx(self.cpu, self.mem, self.cpu_type,
self.ram_size, self.label_mgr, self.alloc,
self.traps, self.seg_loader, self.path_mgr)
self.dos_ctx = DosLibCtx(self.cpu, self.mem, self.alloc, self.path_mgr,
self.seg_loader, self.run_command,
self.start_sub_process)
ctx_map.set_default_ctx(LibCtx(self.cpu, self.mem))
ctx_map.add_ctx('exec.library', self.exec_ctx)
ctx_map.add_ctx('dos.library', self.dos_ctx)
# lib manager
self.lib_reg = LibRegistry()
self.lib_mgr = LibManager(self.label_mgr, self.lib_reg, ctx_map, cfg,
self.error_tracker)
self.exec_ctx.set_lib_mgr(self.lib_mgr)
# no current process right now
self.process = None
self.proc_list = []
class SetupLibManager(object):
def __init__(self, machine, mem_map, scheduler, path_mgr,
lib_cfg=None, main_profiler=None):
self.machine = machine
self.mem_map = mem_map
self.path_mgr = path_mgr
self.scheduler = scheduler
self.alloc = mem_map.get_alloc()
self.lib_mgr_cfg = lib_cfg
self.main_profiler = main_profiler
# state
self.seg_loader = None
self.exec_ctx = None
self.dos_ctx = None
self.lib_mgr = None
def parse_config(self, cfg):
if not cfg:
return True
self.lib_mgr_cfg = LibMgrCfg.from_dict(cfg)
return True
def setup(self):
# create def cfg
if self.lib_mgr_cfg is None:
self.lib_mgr_cfg = LibMgrCfg()
# create segment loader
self.seg_loader = SegmentLoader(self.alloc, self.path_mgr)
# setup contexts
odg_base = self.mem_map.get_old_dos_guard_base()
self.exec_ctx = ExecLibCtx(self.machine, self.alloc,
self.seg_loader, self.path_mgr)
self.dos_ctx = DosLibCtx(self.machine, self.alloc,
self.seg_loader, self.path_mgr, self.scheduler,
odg_base)
# create lib mgr
self.lib_mgr = LibManager(self.machine, self.alloc, self.seg_loader,
self.lib_mgr_cfg,
main_profiler=self.main_profiler)
self.lib_mgr.add_ctx('exec.library', self.exec_ctx)
self.lib_mgr.add_ctx('dos.library', self.dos_ctx)
# add all vamos libs
for name in vamos_libs:
cls = vamos_libs[name]
self.lib_mgr.add_impl_cls(name, cls)
# setup scheduler call back
self.scheduler.set_cur_task_callback(self.cur_task_callback)
# return lib_mgr
return self.lib_mgr
def cleanup(self):
# shutdown of libmgr needs temp stack
sp = self.machine.get_ram_begin() - 4
self.lib_mgr.shutdown(run_sp=sp)
def open_base_libs(self):
log_libmgr.info("opening base libs...")
# first bootstrap exec
self.lib_mgr.bootstrap_exec()
# open exec lib
self.exec_addr = self.lib_mgr.open_lib('exec.library', 0)
self.exec_vlib = self.lib_mgr.get_vlib_by_addr(self.exec_addr)
self.exec_impl = self.exec_vlib.get_impl()
log_libmgr.info("open base lib: exec: @%06x", self.exec_addr)
# link exec to dos
self.dos_ctx.set_exec_lib(self.exec_impl)
# open dos lib
self.dos_addr = self.lib_mgr.open_lib('dos.library', 0)
self.dos_vlib = self.lib_mgr.get_vlib_by_addr(self.dos_addr)
self.dos_impl = self.dos_vlib.get_impl()
self.dos_ctx.set_dos_lib(self.dos_impl)
log_libmgr.info("open base lib: dos: @%06x", self.dos_addr)
def close_base_libs(self):
log_libmgr.info("closing base libs...")
# close dos
self.lib_mgr.close_lib(self.dos_addr)
log_libmgr.info("closed dos")
# close exec
self.lib_mgr.close_lib(self.exec_addr)
log_libmgr.info("closed exec")
def cur_task_callback(self, task):
log_libmgr.info("current task: %s", task)
if task:
proc = task.process
self.exec_ctx.set_process(proc)
self.exec_impl.set_this_task(proc)
self.dos_ctx.set_process(proc)
