# common python utility routines for the Bionic tool scripts import sys, os, commands, string # support Bionic architectures, add new ones as appropriate # bionic_archs = [ "arm", "x86", "mips" ] # basic debugging trace support # call D_setlevel to set the verbosity level # and D(), D2(), D3(), D4() to add traces # verbose = 0 def D(msg): global verbose if verbose > 0: print msg def D2(msg): global verbose if verbose >= 2: print msg def D3(msg): global verbose if verbose >= 3: print msg def D4(msg): global verbose if verbose >= 4: print msg def D_setlevel(level): global verbose verbose = level def find_dir_of(path): '''return the directory name of 'path', or "." if there is none''' # remove trailing slash if len(path) > 1 and path[-1] == '/': path = path[:-1] # find parent directory name d = os.path.dirname(path) if d == "": return "." else: return d # other stuff # # def find_file_from_upwards(from_path,target_file): """find a file in the current directory or its parents. if 'from_path' is None, seach from the current program's directory""" path = from_path if path == None: path = find_dir_of(sys.argv[0]) D("this script seems to be located in: %s" % path) while 1: if path == "": path = "." file = path + "/" + target_file D("probing "+file) if os.path.isfile(file): D("found %s in %s" % (target_file, path)) return file if path == ".": break path = os.path.dirname(path) path = "" while 1: path = "../" + path file = path + target_file D("probing "+file) if os.path.isfile(file): D("found %s in %s" % (target_file, path)) return file return None def find_bionic_root(): '''find the root of the Bionic source tree. we check for the SYSCALLS.TXT file from the location of the current program's directory.''' # note that we can't use find_file_from_upwards() since we can't use os.path.abspath # that's because in some cases the p4 client is in a symlinked directory, and this # function will return the real path instead, which later creates problems when # p4 commands are issued # file = find_file_from_upwards(None, "SYSCALLS.TXT") if file: return os.path.dirname(file) else: return None def find_original_kernel_headers(): """try to find the directory containing the original kernel headers""" bionic_root = find_bionic_root() if not bionic_root: D("Could not find Bionic root !!") return None path = os.path.normpath(bionic_root + "/../../external/kernel-headers/original") if not os.path.isdir(path): D("Could not find %s" % (path)) return None return path def find_kernel_headers(): """try to find the directory containing the kernel headers for this machine""" # First try to find the original kernel headers. ret = find_original_kernel_headers() if ret: D("found original kernel headers in: %s" % (ret)) return ret status, version = commands.getstatusoutput( "uname -r" ) # get Linux kernel version if status != 0: D("could not execute 'uname -r' command properly") return None # get rid of the "-xenU" suffix that is found in Xen virtual machines if len(version) > 5 and version[-5:] == "-xenU": version = version[:-5] path = "/usr/src/linux-headers-" + version + "/include" D("probing %s for kernel headers" % (path)) ret = os.path.isdir( path ) if ret: D("found kernel headers in: %s" % (path)) return path return None def find_arch_header(kernel_headers,arch,header): # First, try in /arch//include/
# corresponding to the location in the kernel source tree for # certain architectures (e.g. arm). path = "%s/arch/%s/include/asm/%s" % (kernel_headers, arch, header) D("Probing for %s" % path) if os.path.exists(path): return path # Try /asm-/include/
corresponding to the location # in the kernel source tree for other architectures (e.g. x86). path = "%s/include/asm-%s/%s" % (kernel_headers, arch, header) D("Probing for %s" % path) if os.path.exists(path): return path # Otherwise, look under /asm-/
corresponding # the original kernel headers directory path = "%s/asm-%s/%s" % (kernel_headers, arch, header) D("Probing for %s" % path) if os.path.exists(path): return path return None # parser for the SYSCALLS.TXT file # 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[:syscall_name[:call_id]] ( [paramlist] ) (syscall_number[,syscall_number_x86])|stub """ 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],' ') call_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 call_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] call_id = int(syscall_func[pos_colon2+1:]) syscall_func = syscall_func[:pos_colon] 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" number = line[pos_rparen+1:].strip() if number == "stub": syscall_common = -1 syscall_arm = -1 syscall_x86 = -1 syscall_mips = -1 else: try: if number[0] == '#': number = number[1:].strip() numbers = string.split(number,',') if len(numbers) == 1: syscall_common = int(numbers[0]) syscall_arm = -1 syscall_x86 = -1 syscall_mips = -1 else: if len(numbers) == 3: syscall_common = -1 syscall_arm = int(numbers[0]) syscall_x86 = int(numbers[1]) syscall_mips = int(numbers[2]) else: E("invalid syscall number format in '%s'" % line) return except: E("invalid syscall number in '%s'" % line) return global verbose if verbose >= 2: if call_id == -1: if syscall_common == -1: print "%s: %d,%d,%d" % (syscall_name, syscall_arm, syscall_x86, syscall_mips) else: print "%s: %d" % (syscall_name, syscall_common) else: if syscall_common == -1: print "%s(%d): %d,%d,%d" % (syscall_name, call_id, syscall_arm, syscall_x86, syscall_mips) else: print "%s(%d): %d" % (syscall_name, call_id, syscall_common) t = { "armid" : syscall_arm, "x86id" : syscall_x86, "mipsid" : syscall_mips, "common" : syscall_common, "cid" : call_id, "name" : syscall_name, "func" : syscall_func, "params" : syscall_params, "decl" : "%-15s %s (%s);" % (return_type, syscall_func, params) } self.syscalls.append(t) def parse_file(self, file_path): D2("parse_file: %s" % file_path) fp = open(file_path) for line in fp.xreadlines(): self.lineno += 1 line = line.strip() if not line: continue if line[0] == '#': continue self.parse_line(line) fp.close() class Output: def __init__(self,out=sys.stdout): self.out = out def write(self,msg): self.out.write(msg) def writeln(self,msg): self.out.write(msg) self.out.write("\n") class StringOutput: def __init__(self): self.line = "" def write(self,msg): self.line += msg D2("write '%s'" % msg) def writeln(self,msg): self.line += msg + '\n' D2("write '%s\\n'"% msg) def get(self): return self.line def create_file_path(path): dirs = [] while 1: parent = os.path.dirname(path) if parent == "/": break dirs.append(parent) path = parent dirs.reverse() for dir in dirs: #print "dir %s" % dir if os.path.isdir(dir): continue os.mkdir(dir) def walk_source_files(paths,callback,args,excludes=[]): """recursively walk a list of paths and files, only keeping the source files in directories""" for path in paths: if not os.path.isdir(path): callback(path,args) else: for root, dirs, files in os.walk(path): #print "w-- %s (ex: %s)" % (repr((root,dirs)), repr(excludes)) if len(excludes): for d in dirs[:]: if d in excludes: dirs.remove(d) for f in files: r, ext = os.path.splitext(f) if ext in [ ".h", ".c", ".cpp", ".S" ]: callback( "%s/%s" % (root,f), args ) def cleanup_dir(path): """create a directory if needed, and ensure that it is totally empty by removing any existing content in it""" if not os.path.exists(path): os.mkdir(path) else: for root, dirs, files in os.walk(path, topdown=False): if root.endswith("kernel_headers/"): # skip 'kernel_headers' continue for name in files: os.remove(os.path.join(root, name)) for name in dirs: os.rmdir(os.path.join(root, name))