diff --git a/tools/sconsui.py b/tools/sconsui.py new file mode 100644 index 0000000000..e4f79a6ea5 --- /dev/null +++ b/tools/sconsui.py @@ -0,0 +1,409 @@ +#! /usr/bin/env python +#coding=utf-8 + +import sys + +py2 = py30 = py31 = False +version = sys.hexversion +if version >= 0x020600F0 and version < 0x03000000 : + py2 = True # Python 2.6 or 2.7 + from Tkinter import * + import ttk +elif version >= 0x03000000 and version < 0x03010000 : + py30 = True + from tkinter import * + import ttk +elif version >= 0x03010000: + py31 = True + from tkinter import * + import tkinter.ttk as ttk +else: + print (""" + You do not have a version of python supporting ttk widgets.. + You need a version >= 2.6 to execute PAGE modules. + """) + sys.exit() + +import ScrolledText +import tkFileDialog +import tkMessageBox + +import os +import threading +import platform + +builder = None +executor = None +lock = None + +class CmdExecutor(threading.Thread): + def __init__(self, cmd, output): + threading.Thread.__init__(self) + self.cmd = cmd + self.child = None + + def run(self): + global executor + + if platform.system() == 'Windows': + from win32spawn import Win32Spawn + + subprocess = Win32Spawn(self.cmd) + subprocess.start_pipe() + + builder.progressbar.start() + while not subprocess.is_terminated or subprocess.qsize() > 0: + try: + line = subprocess.get(timeout=1) + line = line.replace('\r', '') + if line: + lock.acquire() + builder.output.see(END) + builder.output.insert(END, line) + lock.release() + except: + pass + + builder.progressbar.stop() + + executor = None + +def ExecCmd(cmd): + global executor + if executor: + print 'cmd not exit, return' + return + + executor = CmdExecutor(cmd, builder) + executor.start() + +class DirSelectBox(ttk.Frame): + def __init__(self, master=None, **kw): + ttk.Frame.__init__(self, master, **kw) + self.dir_var = StringVar() + self.entry = ttk.Entry(self, textvariable = self.dir_var) + self.entry.pack(fill=BOTH, expand=1,side=LEFT) + self.entry.configure(width = 50) + + self.browser_button = ttk.Button(self, text="Browser", command=self.browser) + self.browser_button.pack(side=RIGHT) + + def browser(self): + dir = tkFileDialog.askdirectory(parent=self, title='Open directory', initialdir=self.dir_var.get()) + if dir != '': + self.dir_var.set(dir) + + def set_path(self, path): + path = path.replace('\\', '/') + self.dir_var.set(path) + + def get_path(self): + return self.dir_var.get() + +COMPILER = [ + ("GNU GCC", "GCC"), + ("Keil ARMCC", "ARMCC"), + ("IAR Compiler", "IAR"), + ] + +IDE = [ + ('Keil MDK4', 'mdk4'), + ('Keil MDK', 'mdk'), + ('IAR Compiler', 'iar') +] + +class SconsUI(): + def __init__(self, master=None): + style = ttk.Style() + theme = style.theme_use() + default = style.lookup(theme, 'background') + master.configure(background=default) + + notebook = ttk.Notebook(master) + notebook.pack(fill=BOTH, padx=5, pady=5) + + # building page + page_building = ttk.Frame(notebook) + notebook.add(page_building, padding=3) + notebook.tab(0, text='Build', underline="-1") + self.setup_building_ui(page_building) + + # make project page + page_project = ttk.Frame(notebook) + notebook.add(page_project, padding = 3) + notebook.tab(1, text = 'Project', underline = '-1') + self.setup_project_ui(page_project) + + # setting page + page_setting = ttk.Frame(notebook) + notebook.add(page_setting, padding = 3) + notebook.tab(2, text = 'Setting', underline = '-1') + self.setup_setting_ui(page_setting) + + padding = ttk.Frame(master) + padding.pack(fill=X) + quit = ttk.Button(padding, text='Quit', command = self.quit) + quit.pack(side=RIGHT) + + # read setting + self.read_setting() + + def read_setting(self): + import platform + import os + + home = '' + if platform.system() == 'Windows': + driver = os.environ['HOMEDRIVE'] + home = os.environ['HOMEPATH'] + home = os.path.join(driver, home) + else: + home = os.environ['HOME'] + + setting_path = os.path.join(home, '.rtt_scons') + if os.path.exists(setting_path): + setting = file(os.path.join(home, '.rtt_scons')) + for line in setting: + line = line.replace('\n', '') + line = line.replace('\r', '') + if line.find('=') != -1: + items = line.split('=') + if items[0] == 'RTTRoot': + self.RTTRoot.set_path(items[1]) + elif items[0] == 'BSPRoot': + self.BSPRoot.set_path(items[1]) + elif items[0] == 'compiler': + compiler = items[1] + else: + self.CompilersPath[items[0]].set_path(items[1]) + setting.close() + + # set RT-Thread Root Directory according environ + if os.environ.has_key('RTT_ROOT'): + self.RTTRoot.set_path(os.environ['RTT_ROOT']) + + # detect compiler path + if platform.system() == 'Windows': + # Keil MDK + if not self.CompilersPath['ARMCC'].get_path(): + if os.path.exists('C:\\Keil'): + self.CompilersPath['ARMCC'].set_path('C:\\Keil') + elif os.path.exists('D:\\Keil'): + self.CompilersPath['ARMCC'].set_path('D:\\Keil') + elif os.path.exists('E:\\Keil'): + self.CompilersPath['ARMCC'].set_path('E:\\Keil') + elif os.path.exists('F:\\Keil'): + self.CompilersPath['ARMCC'].set_path('F:\\Keil') + elif os.path.exists('G:\\Keil'): + self.CompilersPath['ARMCC'].set_path('G:\\Keil') + + # GNU GCC + if not self.CompilersPath['GCC'].get_path(): + paths = os.environ['PATH'] + paths = paths.split(';') + + for path in paths: + if path.find('CodeSourcery') != -1: + self.CompilersPath['GCC'].set_path(path) + break + elif path.find('GNU Tools ARM Embedded') != -1: + self.CompilersPath['GCC'].set_path(path) + break + + def save_setting(self): + import platform + import os + + home = '' + if platform.system() == 'Windows': + driver = os.environ['HOMEDRIVE'] + home = os.environ['HOMEPATH'] + home = os.path.join(driver, home) + else: + home = os.environ['HOME'] + + setting = file(os.path.join(home, '.rtt_scons'), 'wb+') + # current comiler + # line = '%s=%s\n' % ('compiler', self.compilers.get())) + line = '%s=%s\n' % ('compiler', 'iar') + setting.write(line) + + # RTT Root Folder + if self.RTTRoot.get_path(): + line = '%s=%s\n' % ('RTTRoot', self.RTTRoot.get_path()) + setting.write(line) + + # BSP Root Folder + if self.BSPRoot.get_path(): + line = '%s=%s\n' % ('BSPRoot', self.BSPRoot.get_path()) + setting.write(line) + + for (compiler, path) in self.CompilersPath.iteritems(): + if path.get_path(): + line = '%s=%s\n' % (compiler, path.get_path()) + setting.write(line) + + setting.close() + tkMessageBox.showinfo("RT-Thread SCons UI", + "Save setting sucessfully") + + def setup_building_ui(self, frame): + padding = ttk.Frame(frame) + padding.pack(fill=X) + + button = ttk.Button(padding, text='Clean', command=self.do_clean) + button.pack(side=RIGHT) + button = ttk.Button(padding, text='Build', command=self.do_build) + button.pack(side=RIGHT) + label = ttk.Label(padding, relief = 'flat', text = 'Click Build or Clean to build or clean system -->') + label.pack(side=RIGHT, ipady = 5) + + self.progressbar = ttk.Progressbar(frame) + self.progressbar.pack(fill=X) + + separator = ttk.Separator(frame) + separator.pack(fill=X) + + self.output = ScrolledText.ScrolledText(frame) + self.output.pack(fill=X) + + def setup_project_ui(self, frame): + label = ttk.Label(frame, relief = 'flat', text = 'Choose Integrated Development Environment:') + label.pack(fill=X, pady = 5) + + separator = ttk.Separator(frame) + separator.pack(fill=X) + + self.ide = StringVar() + self.ide.set("mdk4") # initialize + + for text,mode in IDE: + radiobutton = ttk.Radiobutton(frame, text=text, variable = self.ide, value = mode) + radiobutton.pack(fill=X, padx=10) + + bottom = ttk.Frame(frame) + bottom.pack(side=BOTTOM, fill=X) + button = ttk.Button(bottom, text="Make Project", command = self.do_make_project) + button.pack(side=RIGHT, padx = 10, pady = 10) + + def setup_setting_ui(self, frame): + row = 0 + label = ttk.Label (frame, relief = 'flat', text='RT-Thread Root Folder:') + label.grid(row=row, column=0,ipadx=5, ipady=5, padx = 5) + + self.RTTRoot = DirSelectBox(frame) + self.RTTRoot.grid(row=row, column=1, sticky=E+W) + row = row + 1 + + label = ttk.Label (frame, relief = 'flat', text='Board Support Folder:') + label.grid(row=row, column=0,ipadx=5, ipady=5, padx = 5) + + self.BSPRoot = DirSelectBox(frame) + self.BSPRoot.grid(row=row, column=1, sticky=E+W) + row = row + 1 + + label = ttk.Label (frame, relief='flat', text='Toolchain:') + label.grid(row=row, column=0,ipadx=5, ipady=5, sticky=E+W) + row = row + 1 + + separator = ttk.Separator(frame) + separator.grid(row = row, column = 0, columnspan = 2, sticky = E+W) + row = row + 1 + + self.compilers = StringVar() + self.compilers.set("GCC") # initialize + + self.CompilersPath = {} + + for text,compiler in COMPILER: + radiobutton = ttk.Radiobutton(frame, text=text, variable = self.compilers, value = compiler) + radiobutton.grid(row=row, column = 0, sticky = W, ipadx = 5, ipady = 5, padx = 20) + + self.CompilersPath[compiler] = DirSelectBox(frame) + self.CompilersPath[compiler].grid(row=row, column=1, sticky=E+W) + row = row + 1 + + button = ttk.Button(frame, text='Save Setting', command = self.save_setting) + button.grid(row = row, column = 1, sticky = E) + row = row + 1 + + def prepare_build(self): + # get compiler + compiler = self.compilers.get() + if compiler == 'GCC': + compiler = 'gcc' + elif compiler == 'ARMCC': + compiler = 'keil' + elif compiler == 'IAR': + compiler = 'iar' + + # get RTT Root + rtt_root = self.RTTRoot.get_path() + # get Compiler path + exec_path = self.CompilersPath[self.compilers.get()].get_path() + + command = '' + + os.environ['RTT_ROOT'] = rtt_root + os.environ['RTT_CC'] = compiler + os.environ['RTT_EXEC_PATH'] = exec_path + + return command + + def do_build(self): + self.prepare_build() + command = 'scons' + + bsp = self.BSPRoot.get_path() + os.chdir(bsp) + + self.output.delete(1.0, END) + self.output.insert(END, 'building project...\n') + ExecCmd(command) + + def do_clean(self): + self.prepare_build() + command = 'scons -c' + + bsp = self.BSPRoot.get_path() + os.chdir(bsp) + + self.output.delete(1.0, END) + self.output.insert(END, 'clean project...\n') + ExecCmd(command) + + def do_make_project(self): + ide = self.ide.get() + self.prepare_build() + command = 'scons --target=%s -s' % ide + + bsp = self.BSPRoot.get_path() + os.chdir(bsp) + + self.output.delete(1.0, END) + self.output.insert(END, 'make project ...\n') + ExecCmd(command) + + def quit(self): + exit(0) + +def StartSConsUI(path=None): + global val, root + root = Tk() + root.title('RT-Thread SCons UI') + root.geometrygeometry('590x510+50+50') + lock = threading.RLock() + builder = SconsUI(root) + if path: + builder.BSPRoot.set_path(path) + root.mainloop + +if __name__ == '__main__': + global val, root + root = Tk() + root.title('scons_builder') + root.geometry('590x510+50+50') + lock = threading.RLock() + scons_ui = SconsUI(root) + builder = scons_ui + root.mainloop() diff --git a/tools/win32spawn.py b/tools/win32spawn.py new file mode 100644 index 0000000000..f513ec3ea4 --- /dev/null +++ b/tools/win32spawn.py @@ -0,0 +1,154 @@ +import os +import threading +import Queue + +# Windows import +import win32file +import win32pipe +import win32api +import win32con +import win32security +import win32process +import win32event + +class Win32Spawn(object): + def __init__(self, cmd, shell=False): + self.queue = Queue.Queue() + self.is_terminated = False + self.wake_up_event = win32event.CreateEvent(None, 0, 0, None) + + exec_dir = os.getcwd() + comspec = os.environ.get("COMSPEC", "cmd.exe") + cmd = comspec + ' /c ' + cmd + + win32event.ResetEvent(self.wake_up_event) + + currproc = win32api.GetCurrentProcess() + + sa = win32security.SECURITY_ATTRIBUTES() + sa.bInheritHandle = 1 + + child_stdout_rd, child_stdout_wr = win32pipe.CreatePipe(sa, 0) + child_stdout_rd_dup = win32api.DuplicateHandle(currproc, child_stdout_rd, currproc, 0, 0, win32con.DUPLICATE_SAME_ACCESS) + win32file.CloseHandle(child_stdout_rd) + + child_stderr_rd, child_stderr_wr = win32pipe.CreatePipe(sa, 0) + child_stderr_rd_dup = win32api.DuplicateHandle(currproc, child_stderr_rd, currproc, 0, 0, win32con.DUPLICATE_SAME_ACCESS) + win32file.CloseHandle(child_stderr_rd) + + child_stdin_rd, child_stdin_wr = win32pipe.CreatePipe(sa, 0) + child_stdin_wr_dup = win32api.DuplicateHandle(currproc, child_stdin_wr, currproc, 0, 0, win32con.DUPLICATE_SAME_ACCESS) + win32file.CloseHandle(child_stdin_wr) + + startup_info = win32process.STARTUPINFO() + startup_info.hStdInput = child_stdin_rd + startup_info.hStdOutput = child_stdout_wr + startup_info.hStdError = child_stderr_wr + startup_info.dwFlags = win32process.STARTF_USESTDHANDLES + + cr_flags = 0 + cr_flags = win32process.CREATE_NEW_PROCESS_GROUP + + env = os.environ.copy() + self.h_process, h_thread, dw_pid, dw_tid = win32process.CreateProcess(None, cmd, None, None, 1, + cr_flags, env, os.path.abspath(exec_dir), + startup_info) + + win32api.CloseHandle(h_thread) + + win32file.CloseHandle(child_stdin_rd) + win32file.CloseHandle(child_stdout_wr) + win32file.CloseHandle(child_stderr_wr) + + self.__child_stdout = child_stdout_rd_dup + self.__child_stderr = child_stderr_rd_dup + self.__child_stdin = child_stdin_wr_dup + + self.exit_code = -1 + + def close(self): + win32file.CloseHandle(self.__child_stdout) + win32file.CloseHandle(self.__child_stderr) + win32file.CloseHandle(self.__child_stdin) + win32api.CloseHandle(self.h_process) + win32api.CloseHandle(self.wake_up_event) + + def kill_subprocess(): + win32event.SetEvent(self.wake_up_event) + + def sleep(secs): + win32event.ResetEvent(self.wake_up_event) + timeout = int(1000 * secs) + val = win32event.WaitForSingleObject(self.wake_up_event, timeout) + if val == win32event.WAIT_TIMEOUT: + return True + else: + # The wake_up_event must have been signalled + return False + + def get(self, block=True, timeout=None): + return self.queue.get(block=block, timeout=timeout) + + def qsize(self): + return self.queue.qsize() + + def __wait_for_child(self): + # kick off threads to read from stdout and stderr of the child process + threading.Thread(target=self.__do_read, args=(self.__child_stdout, )).start() + threading.Thread(target=self.__do_read, args=(self.__child_stderr, )).start() + + while True: + # block waiting for the process to finish or the interrupt to happen + handles = (self.wake_up_event, self.h_process) + val = win32event.WaitForMultipleObjects(handles, 0, win32event.INFINITE) + + if val >= win32event.WAIT_OBJECT_0 and val < win32event.WAIT_OBJECT_0 + len(handles): + handle = handles[val - win32event.WAIT_OBJECT_0] + if handle == self.wake_up_event: + win32api.TerminateProcess(self.h_process, 1) + win32event.ResetEvent(self.wake_up_event) + return False + elif handle == self.h_process: + # the process has ended naturally + return True + else: + assert False, "Unknown handle fired" + else: + assert False, "Unexpected return from WaitForMultipleObjects" + + # Wait for job to finish. Since this method blocks, it can to be called from another thread. + # If the application wants to kill the process, it should call kill_subprocess(). + def wait(self): + if not self.__wait_for_child(): + # it's been killed + result = False + else: + # normal termination + self.exit_code = win32process.GetExitCodeProcess(self.h_process) + result = self.exit_code == 0 + self.close() + self.is_terminated = True + + return result + + # This method gets called on a worker thread to read from either a stderr + # or stdout thread from the child process. + def __do_read(self, handle): + bytesToRead = 1024 + while 1: + try: + finished = 0 + hr, data = win32file.ReadFile(handle, bytesToRead, None) + self.queue.put_nowait(data) + except win32api.error: + finished = 1 + + if finished: + return + + def start_pipe(self): + def worker(pipe): + return pipe.wait() + + thrd = threading.Thread(target=worker, args=(self, )) + thrd.start()