platform_bionic/libc/tools/gensyscalls.py
Elliott Hughes c2faf235c0 Stop generating unused headers.
These just cause confusion because they often have different
values/layouts, but they're never actually used.

Test: treehugger
Change-Id: I424034088e017c919f62fcefa7d6d3f903f31cfb
2020-02-03 17:56:06 -08:00

537 lines
14 KiB
Python
Executable file

#!/usr/bin/env python
# This tool is used to generate the assembler system call stubs,
# the header files listing all available system calls, and the
# makefiles used to build all the stubs.
import atexit
import commands
import filecmp
import glob
import re
import shutil
import stat
import string
import sys
import tempfile
SupportedArchitectures = [ "arm", "arm64", "x86", "x86_64" ]
syscall_stub_header = \
"""
ENTRY(%(func)s)
"""
#
# ARM assembler templates for each syscall stub
#
arm_eabi_call_default = syscall_stub_header + """\
mov ip, r7
.cfi_register r7, ip
ldr r7, =%(__NR_name)s
swi #0
mov r7, ip
.cfi_restore r7
cmn r0, #(MAX_ERRNO + 1)
bxls lr
neg r0, r0
b __set_errno_internal
END(%(func)s)
"""
arm_eabi_call_long = syscall_stub_header + """\
mov ip, sp
stmfd sp!, {r4, r5, r6, r7}
.cfi_def_cfa_offset 16
.cfi_rel_offset r4, 0
.cfi_rel_offset r5, 4
.cfi_rel_offset r6, 8
.cfi_rel_offset r7, 12
ldmfd ip, {r4, r5, r6}
ldr r7, =%(__NR_name)s
swi #0
ldmfd sp!, {r4, r5, r6, r7}
.cfi_def_cfa_offset 0
cmn r0, #(MAX_ERRNO + 1)
bxls lr
neg r0, r0
b __set_errno_internal
END(%(func)s)
"""
#
# Arm64 assembler template for each syscall stub
#
arm64_call = syscall_stub_header + """\
mov x8, %(__NR_name)s
svc #0
cmn x0, #(MAX_ERRNO + 1)
cneg x0, x0, hi
b.hi __set_errno_internal
ret
END(%(func)s)
"""
#
# MIPS assembler template for each syscall stub
#
mips_call = syscall_stub_header + """\
.set noreorder
.cpload $t9
li $v0, %(__NR_name)s
syscall
bnez $a3, 1f
move $a0, $v0
j $ra
nop
1:
la $t9,__set_errno_internal
j $t9
nop
.set reorder
END(%(func)s)
"""
#
# MIPS64 assembler template for each syscall stub
#
mips64_call = syscall_stub_header + """\
.set push
.set noreorder
li $v0, %(__NR_name)s
syscall
bnez $a3, 1f
move $a0, $v0
j $ra
nop
1:
move $t0, $ra
bal 2f
nop
2:
.cpsetup $ra, $t1, 2b
LA $t9, __set_errno_internal
.cpreturn
j $t9
move $ra, $t0
.set pop
END(%(func)s)
"""
#
# x86 assembler templates for each syscall stub
#
x86_registers = [ "ebx", "ecx", "edx", "esi", "edi", "ebp" ]
x86_call_prepare = """\
call __kernel_syscall
pushl %eax
.cfi_adjust_cfa_offset 4
.cfi_rel_offset eax, 0
"""
x86_call = """\
movl $%(__NR_name)s, %%eax
call *(%%esp)
addl $4, %%esp
cmpl $-MAX_ERRNO, %%eax
jb 1f
negl %%eax
pushl %%eax
call __set_errno_internal
addl $4, %%esp
1:
"""
x86_return = """\
ret
END(%(func)s)
"""
#
# x86_64 assembler template for each syscall stub
#
x86_64_call = """\
movl $%(__NR_name)s, %%eax
syscall
cmpq $-MAX_ERRNO, %%rax
jb 1f
negl %%eax
movl %%eax, %%edi
call __set_errno_internal
1:
ret
END(%(func)s)
"""
def param_uses_64bits(param):
"""Returns True iff a syscall parameter description corresponds
to a 64-bit type."""
param = param.strip()
# First, check that the param type begins with one of the known
# 64-bit types.
if not ( \
param.startswith("int64_t") or param.startswith("uint64_t") or \
param.startswith("loff_t") or param.startswith("off64_t") or \
param.startswith("long long") or param.startswith("unsigned long long") or
param.startswith("signed long long") ):
return False
# Second, check that there is no pointer type here
if param.find("*") >= 0:
return False
# Ok
return True
def count_arm_param_registers(params):
"""This function is used to count the number of register used
to pass parameters when invoking an ARM system call.
This is because the ARM EABI mandates that 64-bit quantities
must be passed in an even+odd register pair. So, for example,
something like:
foo(int fd, off64_t pos)
would actually need 4 registers:
r0 -> int
r1 -> unused
r2-r3 -> pos
"""
count = 0
for param in params:
if param_uses_64bits(param):
if (count & 1) != 0:
count += 1
count += 2
else:
count += 1
return count
def count_generic_param_registers(params):
count = 0
for param in params:
if param_uses_64bits(param):
count += 2
else:
count += 1
return count
def count_generic_param_registers64(params):
count = 0
for param in params:
count += 1
return count
# This lets us support regular system calls like __NR_write and also weird
# ones like __ARM_NR_cacheflush, where the NR doesn't come at the start.
def make__NR_name(name):
if name.startswith("__ARM_NR_"):
return name
else:
return "__NR_%s" % (name)
def add_footer(pointer_length, stub, syscall):
# Add any aliases for this syscall.
aliases = syscall["aliases"]
for alias in aliases:
stub += "\nALIAS_SYMBOL(%s, %s)\n" % (alias, syscall["func"])
# Use hidden visibility on LP64 for any functions beginning with underscores.
if pointer_length == 64 and syscall["func"].startswith("__"):
stub += '.hidden ' + syscall["func"] + '\n'
return stub
def arm_eabi_genstub(syscall):
num_regs = count_arm_param_registers(syscall["params"])
if num_regs > 4:
return arm_eabi_call_long % syscall
return arm_eabi_call_default % syscall
def arm64_genstub(syscall):
return arm64_call % syscall
def mips_genstub(syscall):
return mips_call % syscall
def mips64_genstub(syscall):
return mips64_call % syscall
def x86_genstub(syscall):
result = syscall_stub_header % syscall
numparams = count_generic_param_registers(syscall["params"])
stack_bias = numparams*4 + 8
offset = 0
mov_result = ""
first_push = True
for register in x86_registers[:numparams]:
result += " pushl %%%s\n" % register
if first_push:
result += " .cfi_def_cfa_offset 8\n"
result += " .cfi_rel_offset %s, 0\n" % register
first_push = False
else:
result += " .cfi_adjust_cfa_offset 4\n"
result += " .cfi_rel_offset %s, 0\n" % register
mov_result += " mov %d(%%esp), %%%s\n" % (stack_bias+offset, register)
offset += 4
result += x86_call_prepare
result += mov_result
result += x86_call % syscall
for register in reversed(x86_registers[:numparams]):
result += " popl %%%s\n" % register
result += x86_return % syscall
return result
def x86_genstub_socketcall(syscall):
# %ebx <--- Argument 1 - The call id of the needed vectored
# syscall (socket, bind, recv, etc)
# %ecx <--- Argument 2 - Pointer to the rest of the arguments
# from the original function called (socket())
result = syscall_stub_header % syscall
# save the regs we need
result += " pushl %ebx\n"
result += " .cfi_def_cfa_offset 8\n"
result += " .cfi_rel_offset ebx, 0\n"
result += " pushl %ecx\n"
result += " .cfi_adjust_cfa_offset 4\n"
result += " .cfi_rel_offset ecx, 0\n"
stack_bias = 16
result += x86_call_prepare
# set the call id (%ebx)
result += " mov $%d, %%ebx\n" % syscall["socketcall_id"]
# set the pointer to the rest of the args into %ecx
result += " mov %esp, %ecx\n"
result += " addl $%d, %%ecx\n" % (stack_bias)
# now do the syscall code itself
result += x86_call % syscall
# now restore the saved regs
result += " popl %ecx\n"
result += " popl %ebx\n"
# epilog
result += x86_return % syscall
return result
def x86_64_genstub(syscall):
result = syscall_stub_header % syscall
num_regs = count_generic_param_registers64(syscall["params"])
if (num_regs > 3):
# rcx is used as 4th argument. Kernel wants it at r10.
result += " movq %rcx, %r10\n"
result += x86_64_call % syscall
return result
class SysCallsTxtParser:
def __init__(self):
self.syscalls = []
self.lineno = 0
def E(self, msg):
print "%d: %s" % (self.lineno, msg)
def parse_line(self, line):
""" parse a syscall spec line.
line processing, format is
return type func_name[|alias_list][:syscall_name[:socketcall_id]] ( [paramlist] ) architecture_list
"""
pos_lparen = line.find('(')
E = self.E
if pos_lparen < 0:
E("missing left parenthesis in '%s'" % line)
return
pos_rparen = line.rfind(')')
if pos_rparen < 0 or pos_rparen <= pos_lparen:
E("missing or misplaced right parenthesis in '%s'" % line)
return
return_type = line[:pos_lparen].strip().split()
if len(return_type) < 2:
E("missing return type in '%s'" % line)
return
syscall_func = return_type[-1]
return_type = string.join(return_type[:-1],' ')
socketcall_id = -1
pos_colon = syscall_func.find(':')
if pos_colon < 0:
syscall_name = syscall_func
else:
if pos_colon == 0 or pos_colon+1 >= len(syscall_func):
E("misplaced colon in '%s'" % line)
return
# now find if there is a socketcall_id for a dispatch-type syscall
# after the optional 2nd colon
pos_colon2 = syscall_func.find(':', pos_colon + 1)
if pos_colon2 < 0:
syscall_name = syscall_func[pos_colon+1:]
syscall_func = syscall_func[:pos_colon]
else:
if pos_colon2+1 >= len(syscall_func):
E("misplaced colon2 in '%s'" % line)
return
syscall_name = syscall_func[(pos_colon+1):pos_colon2]
socketcall_id = int(syscall_func[pos_colon2+1:])
syscall_func = syscall_func[:pos_colon]
alias_delim = syscall_func.find('|')
if alias_delim > 0:
alias_list = syscall_func[alias_delim+1:].strip()
syscall_func = syscall_func[:alias_delim]
alias_delim = syscall_name.find('|')
if alias_delim > 0:
syscall_name = syscall_name[:alias_delim]
syscall_aliases = string.split(alias_list, ',')
else:
syscall_aliases = []
if pos_rparen > pos_lparen+1:
syscall_params = line[pos_lparen+1:pos_rparen].split(',')
params = string.join(syscall_params,',')
else:
syscall_params = []
params = "void"
t = {
"name" : syscall_name,
"func" : syscall_func,
"aliases" : syscall_aliases,
"params" : syscall_params,
"decl" : "%-15s %s (%s);" % (return_type, syscall_func, params),
"socketcall_id" : socketcall_id
}
# Parse the architecture list.
arch_list = line[pos_rparen+1:].strip()
if arch_list == "all":
for arch in SupportedArchitectures:
t[arch] = True
elif arch_list == "lp32":
for arch in SupportedArchitectures:
if "64" not in arch:
t[arch] = True
elif arch_list == "lp64":
for arch in SupportedArchitectures:
if "64" in arch:
t[arch] = True
else:
for arch in string.split(arch_list, ','):
if arch in SupportedArchitectures:
t[arch] = True
elif arch in ['mips', 'mips64']:
# Unused.
pass
else:
E("invalid syscall architecture '%s' in '%s'" % (arch, line))
return
self.syscalls.append(t)
def parse_open_file(self, fp):
for line in fp:
self.lineno += 1
line = line.strip()
if not line: continue
if line[0] == '#': continue
self.parse_line(line)
def parse_file(self, file_path):
with open(file_path) as fp:
self.parse_open_file(fp)
def main(arch, syscall_file):
parser = SysCallsTxtParser()
parser.parse_file(syscall_file)
for syscall in parser.syscalls:
syscall["__NR_name"] = make__NR_name(syscall["name"])
if syscall.has_key("arm"):
syscall["asm-arm"] = add_footer(32, arm_eabi_genstub(syscall), syscall)
if syscall.has_key("arm64"):
syscall["asm-arm64"] = add_footer(64, arm64_genstub(syscall), syscall)
if syscall.has_key("x86"):
if syscall["socketcall_id"] >= 0:
syscall["asm-x86"] = add_footer(32, x86_genstub_socketcall(syscall), syscall)
else:
syscall["asm-x86"] = add_footer(32, x86_genstub(syscall), syscall)
elif syscall["socketcall_id"] >= 0:
E("socketcall_id for dispatch syscalls is only supported for x86 in '%s'" % t)
return
if syscall.has_key("mips"):
syscall["asm-mips"] = add_footer(32, mips_genstub(syscall), syscall)
if syscall.has_key("mips64"):
syscall["asm-mips64"] = add_footer(64, mips64_genstub(syscall), syscall)
if syscall.has_key("x86_64"):
syscall["asm-x86_64"] = add_footer(64, x86_64_genstub(syscall), syscall)
print("/* Generated by gensyscalls.py. Do not edit. */\n")
print("#include <private/bionic_asm.h>\n")
for syscall in parser.syscalls:
if syscall.has_key("asm-%s" % arch):
print(syscall["asm-%s" % arch])
if __name__ == "__main__":
if len(sys.argv) < 2:
print "Usage: gensyscalls.py ARCH SOURCE_FILE"
sys.exit(1)
arch = sys.argv[1]
syscall_file = sys.argv[2]
main(arch, syscall_file)