rpc: support all data types as parameters

This commit is contained in:
Sebastien Bourdeauducq 2014-12-19 12:46:24 +08:00
parent 44e7b99792
commit 0d10ae7580
5 changed files with 180 additions and 74 deletions

View File

@ -171,19 +171,35 @@ class Comm(AutoContext):
_write_exactly(self.port, struct.pack( _write_exactly(self.port, struct.pack(
">lbl", 0x5a5a5a5a, _H2DMsgType.RUN_KERNEL.value, len(kname))) ">lbl", 0x5a5a5a5a, _H2DMsgType.RUN_KERNEL.value, len(kname)))
for c in kname: for c in kname:
_write_exactly(self.port, struct.pack("B", ord(c))) _write_exactly(self.port, struct.pack(">B", ord(c)))
logger.debug("running kernel: {}".format(kname)) logger.debug("running kernel: {}".format(kname))
def serve(self, rpc_map, user_exception_map): def _receive_rpc_values(self):
r = []
while True: while True:
msg = self._get_device_msg() type_tag = chr(struct.unpack(">B", _read_exactly(self.port, 1))[0])
if msg == _D2HMsgType.RPC_REQUEST: if type_tag == "\x00":
rpc_num, n_args = struct.unpack(">hB", return r
_read_exactly(self.port, 3)) if type_tag == "n":
args = [] r.append(None)
for i in range(n_args): if type_tag == "b":
args.append(*struct.unpack(">l", r.append(bool(struct.unpack(">B",
_read_exactly(self.port, 4))) _read_exactly(self.port, 1))[0]))
if type_tag == "i":
r.append(struct.unpack(">l", _read_exactly(self.port, 4))[0])
if type_tag == "I":
r.append(struct.unpack(">q", _read_exactly(self.port, 8))[0])
if type_tag == "f":
r.append(struct.unpack(">d", _read_exactly(self.port, 8))[0])
if type_tag == "F":
n, d = struct.unpack(">qq", _read_exactly(self.port, 16))
r.append(Fraction(n, d))
if type_tag == "l":
r.append(self._receive_rpc_values())
def _serve_rpc(self, rpc_map):
(rpc_num, ) = struct.unpack(">h", _read_exactly(self.port, 2))
args = self._receive_rpc_values()
logger.debug("rpc service: {} ({})".format(rpc_num, args)) logger.debug("rpc service: {} ({})".format(rpc_num, args))
r = rpc_map[rpc_num](*args) r = rpc_map[rpc_num](*args)
if r is None: if r is None:
@ -191,13 +207,22 @@ class Comm(AutoContext):
_write_exactly(self.port, struct.pack(">l", r)) _write_exactly(self.port, struct.pack(">l", r))
logger.debug("rpc service: {} ({}) == {}".format( logger.debug("rpc service: {} ({}) == {}".format(
rpc_num, args, r)) rpc_num, args, r))
elif msg == _D2HMsgType.KERNEL_EXCEPTION:
def _serve_exception(self, user_exception_map):
(eid, ) = struct.unpack(">l", _read_exactly(self.port, 4)) (eid, ) = struct.unpack(">l", _read_exactly(self.port, 4))
if eid < core_language.first_user_eid: if eid < core_language.first_user_eid:
exception = runtime_exceptions.exception_map[eid] exception = runtime_exceptions.exception_map[eid]
else: else:
exception = user_exception_map[eid] exception = user_exception_map[eid]
raise exception raise exception
def serve(self, rpc_map, user_exception_map):
while True:
msg = self._get_device_msg()
if msg == _D2HMsgType.RPC_REQUEST:
self._serve_rpc(rpc_map)
elif msg == _D2HMsgType.KERNEL_EXCEPTION:
self._serve_exception(user_exception_map)
elif msg == _D2HMsgType.KERNEL_FINISHED: elif msg == _D2HMsgType.KERNEL_FINISHED:
return return
else: else:

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@ -3,7 +3,7 @@ import os
import llvmlite.ir as ll import llvmlite.ir as ll
import llvmlite.binding as llvm import llvmlite.binding as llvm
from artiq.py2llvm import base_types from artiq.py2llvm import base_types, fractions, lists
from artiq.language import units from artiq.language import units
@ -12,7 +12,6 @@ llvm.initialize_all_targets()
llvm.initialize_all_asmprinters() llvm.initialize_all_asmprinters()
_syscalls = { _syscalls = {
"rpc": "i+:i",
"gpio_set": "ib:n", "gpio_set": "ib:n",
"rtio_oe": "ib:n", "rtio_oe": "ib:n",
"rtio_set": "Iii:n", "rtio_set": "Iii:n",
@ -23,36 +22,56 @@ _syscalls = {
"dds_program": "Iiiiibb:n", "dds_program": "Iiiiibb:n",
} }
_chr_to_type = {
"n": lambda: ll.VoidType(),
"b": lambda: ll.IntType(1),
"i": lambda: ll.IntType(32),
"I": lambda: ll.IntType(64)
}
_chr_to_value = { def _chr_to_type(c):
"n": lambda: base_types.VNone(), if c == "n":
"b": lambda: base_types.VBool(), return ll.VoidType()
"i": lambda: base_types.VInt(), if c == "b":
"I": lambda: base_types.VInt(64) return ll.IntType(1)
} if c == "i":
return ll.IntType(32)
if c == "I":
return ll.IntType(64)
raise ValueError
def _str_to_functype(s): def _str_to_functype(s):
assert(s[-2] == ":") assert(s[-2] == ":")
type_ret = _chr_to_type[s[-1]]() type_ret = _chr_to_type(s[-1])
type_args = [_chr_to_type(c) for c in s[:-2] if c != "n"]
return ll.FunctionType(type_ret, type_args)
var_arg_fixcount = None
type_args = [] def _chr_to_value(c):
for n, c in enumerate(s[:-2]): if c == "n":
if c == "+": return base_types.VNone()
type_args.append(ll.IntType(32)) if c == "b":
var_arg_fixcount = n return base_types.VBool()
elif c != "n": if c == "i":
type_args.append(_chr_to_type[c]()) return base_types.VInt()
return (var_arg_fixcount, if c == "I":
ll.FunctionType(type_ret, type_args, return base_types.VInt(64)
var_arg=var_arg_fixcount is not None)) raise ValueError
def _value_to_str(v):
if isinstance(v, base_types.VNone):
return "n"
if isinstance(v, base_types.VBool):
return "b"
if isinstance(v, base_types.VInt):
if v.nbits == 32:
return "i"
if v.nbits == 64:
return "I"
raise ValueError
if isinstance(v, base_types.VFloat):
return "f"
if isinstance(v, fractions.VFraction):
return "F"
if isinstance(v, lists.VList):
return "l" + _value_to_str(v.el_type)
raise ValueError
class LinkInterface: class LinkInterface:
@ -60,13 +79,15 @@ class LinkInterface:
self.module = module self.module = module
llvm_module = self.module.llvm_module llvm_module = self.module.llvm_module
# RPC
func_type = ll.FunctionType(ll.IntType(32), [ll.IntType(32)],
var_arg=1)
self.rpc = ll.Function(llvm_module, func_type, "__syscall_rpc")
# syscalls # syscalls
self.syscalls = dict() self.syscalls = dict()
self.var_arg_fixcount = dict()
for func_name, func_type_str in _syscalls.items(): for func_name, func_type_str in _syscalls.items():
var_arg_fixcount, func_type = _str_to_functype(func_type_str) func_type = _str_to_functype(func_type_str)
if var_arg_fixcount is not None:
self.var_arg_fixcount[func_name] = var_arg_fixcount
self.syscalls[func_name] = ll.Function( self.syscalls[func_name] = ll.Function(
llvm_module, func_type, "__syscall_" + func_name) llvm_module, func_type, "__syscall_" + func_name)
@ -91,19 +112,48 @@ class LinkInterface:
self.eh_raise = ll.Function(llvm_module, func_type, "__eh_raise") self.eh_raise = ll.Function(llvm_module, func_type, "__eh_raise")
self.eh_raise.attributes.add("noreturn") self.eh_raise.attributes.add("noreturn")
def build_syscall(self, syscall_name, args, builder): def _build_rpc(self, args, builder):
r = _chr_to_value[_syscalls[syscall_name][-1]]() r = base_types.VInt()
if builder is not None:
new_args = []
new_args.append(args[0].auto_load(builder)) # RPC number
for arg in args[1:]:
# type tag
arg_type_str = _value_to_str(arg)
arg_type_int = 0
for c in reversed(arg_type_str):
arg_type_int <<= 8
arg_type_int |= ord(c)
new_args.append(ll.Constant(ll.IntType(32), arg_type_int))
# pointer to value
if not isinstance(arg, base_types.VNone):
if isinstance(arg.llvm_value.type, ll.PointerType):
new_args.append(arg.llvm_value)
else:
arg_ptr = arg.new()
arg_ptr.alloca(builder)
arg_ptr.auto_store(builder, arg.llvm_value)
new_args.append(arg_ptr.llvm_value)
# end marker
new_args.append(ll.Constant(ll.IntType(32), 0))
r.auto_store(builder, builder.call(self.rpc, new_args))
return r
def _build_regular_syscall(self, syscall_name, args, builder):
r = _chr_to_value(_syscalls[syscall_name][-1])
if builder is not None: if builder is not None:
args = [arg.auto_load(builder) for arg in args] args = [arg.auto_load(builder) for arg in args]
if syscall_name in self.var_arg_fixcount:
fixcount = self.var_arg_fixcount[syscall_name]
args = args[:fixcount] \
+ [ll.Constant(ll.IntType(32), len(args) - fixcount)] \
+ args[fixcount:]
r.auto_store(builder, builder.call(self.syscalls[syscall_name], r.auto_store(builder, builder.call(self.syscalls[syscall_name],
args)) args))
return r return r
def build_syscall(self, syscall_name, args, builder):
if syscall_name == "rpc":
return self._build_rpc(args, builder)
else:
return self._build_regular_syscall(syscall_name, args, builder)
def build_catch(self, builder): def build_catch(self, builder):
jmpbuf = builder.call(self.eh_push, []) jmpbuf = builder.call(self.eh_push, [])
exception_occured = builder.call(self.eh_setjmp, [jmpbuf]) exception_occured = builder.call(self.eh_setjmp, [jmpbuf])

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@ -447,17 +447,6 @@ def get_attr_writeback(attribute_namespace, rpc_mapper, loc_node):
attr_writeback = [] attr_writeback = []
for (_, attr), attr_info in attribute_namespace.items(): for (_, attr), attr_info in attribute_namespace.items():
if attr_info.read_write: if attr_info.read_write:
# HACK/FIXME: since RPC of non-int is not supported yet, skip
# writeback of other types for now.
# This code breaks if an int is promoted to int64
if hasattr(attr_info.obj, attr):
val = getattr(attr_info.obj, attr)
if (not isinstance(val, int)
or isinstance(val, core_language.int64)
or isinstance(val, bool)):
continue
#
setter = partial(setattr, attr_info.obj, attr) setter = partial(setattr, attr_info.obj, attr)
func = ast.copy_location( func = ast.copy_location(
ast.Name("syscall", ast.Load()), loc_node) ast.Name("syscall", ast.Load()), loc_node)

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@ -11,7 +11,7 @@ typedef int (*object_loader)(void *, int);
typedef int (*kernel_runner)(const char *, int *); typedef int (*kernel_runner)(const char *, int *);
void comm_serve(object_loader load_object, kernel_runner run_kernel); void comm_serve(object_loader load_object, kernel_runner run_kernel);
int comm_rpc(int rpc_num, int n_args, ...); int comm_rpc(int rpc_num, ...);
void comm_log(const char *fmt, ...); void comm_log(const char *fmt, ...);
#endif /* __COMM_H */ #endif /* __COMM_H */

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@ -181,17 +181,59 @@ void comm_serve(object_loader load_object, kernel_runner run_kernel)
} }
} }
int comm_rpc(int rpc_num, int n_args, ...) static int send_value(int type_tag, void *value)
{ {
char base_type;
int i, p;
int len;
base_type = type_tag;
send_char(base_type);
switch(base_type) {
case 'n':
return 0;
case 'b':
if(*(char *)value)
send_char(1);
else
send_char(0);
return 1;
case 'i':
send_int(*(int *)value);
return 4;
case 'I':
case 'f':
send_int(*(int *)value);
send_int(*((int *)value + 1));
return 8;
case 'F':
for(i=0;i<4;i++)
send_int(*((int *)value + i));
return 16;
case 'l':
len = *(int *)value;
p = 4;
for(i=0;i<len;i++)
p += send_value(type_tag >> 8, (char *)value + p);
send_char(0);
return p;
}
return 0;
}
int comm_rpc(int rpc_num, ...)
{
int type_tag;
send_char(MSGTYPE_RPC_REQUEST); send_char(MSGTYPE_RPC_REQUEST);
send_sint(rpc_num); send_sint(rpc_num);
send_char(n_args);
va_list args; va_list args;
va_start(args, n_args); va_start(args, rpc_num);
while(n_args--) while((type_tag = va_arg(args, int)))
send_int(va_arg(args, int)); send_value(type_tag, type_tag == 'n' ? NULL : va_arg(args, void *));
va_end(args); va_end(args);
send_char(0);
return receive_int(); return receive_int();
} }