perlce - Perl for WinCE
Much of this document has become very out of date and needs updating, rewriting or deleting. The build process was overhauled during the 5.19 development track and the current instructions as of that time are given in "CURRENT BUILD INSTRUCTIONS"; the previous build instructions, which are largely superseded but may still contain some useful information, are left in "OLD BUILD INSTRUCTIONS" but really need removing after anything of use has been extracted from them.
This file gives the instructions for building Perl5.8 and above for WinCE. Please read and understand the terms under which this software is distributed.
miniperl is built. This is a single executable (without DLL), intended to run on Win32, and it will facilitate remaining build process; all binaries built after it are foreign and should not run locally.
miniperl is built using ./win32/Makefile; this is part of normal build process invoked as dependency from wince/Makefile.ce
After miniperl is built, configpm is invoked to create right Config.pm in right place and its corresponding Cross.pm.
Unlike Win32 build, miniperl will not have Config.pm of host within reach; it rather will use Config.pm from within cross-compilation directories.
File Cross.pm is dead simple: for given cross-architecture places in @INC a path where perl modules are, and right Config.pm in that place.
That said, miniperl -Ilib -MConfig -we 1
should report an error, because it can not find Config.pm. If it does not give an error -- wrong Config.pm is substituted, and resulting binaries will be a mess.
miniperl -MCross -MConfig -we 1
should run okay, and it will provide right Config.pm for further compilations.
During extensions build phase, a script ./win32/buldext.pl is invoked, which in turn steps in ./ext subdirectories and performs a build of each extension in turn.
All invokes of Makefile.PL are provided with -MCross
so to enable cross- compile.
(These instructions assume the host is 32-bit Windows. If you're on 64-bit Windows then change "C:\Program Files" to "C:\Program Files (x86)" throughout.)
1. Install EVC4 from
http://download.microsoft.com/download/c/3/f/c3f8b58b-9753-4c2e-8b96-2dfe3476a2f7/eVC4.exe
Use the key mentioned at
http://download.cnet.com/Microsoft-eMbedded-Visual-C/3000-2212_4-10108490.html?tag=bc
The installer is ancient and has a few bugs on the paths it uses. You will have to fix them later. Basically, some things go into "C:/Program Files/Windows CE Tools", others go into "C:/Windows CE Tools" regardless of the path you gave to the installer (the default will be "C:/Windows CE Tools"). Reboots will be required for the installer to proceed. Also .c and .h associations with Visual Studio might get overridden when installing EVC4. You have been warned.
2. Download celib from GitHub (using "Download ZIP") at
https://github.com/bulk88/celib
Extract it to a spaceless path but not into the perl build source. I call this directory "celib-palm-3.0" but in the GitHub snapshot it will be called "celib-master". Make a copy of the "wince-arm-pocket-wce300-release" folder and rename the copy to "wince-arm-pocket-wce400". This is a hack so we can build a CE 4.0 binary by linking in CE 3.0 ARM asm; the linker doesn't care. Windows Mobile/WinCE are backwards compatible with machine code like Desktop Windows.
3. Download console-1.3-src.tar.gz from
http://sourceforge.net/projects/perlce/files/PerlCE%20support%20files/console/
Extract it to a spaceless path but not into the perl build source. Don't extract it into the same directory as celib. Make a copy of the "wince-arm-pocket-wce300" folder and rename the copy to "wince-arm-pocket-wce400". This is a hack so we can build a CE 4.0 binary by linking in CE 3.0 ARM asm; the linker doesn't care. Windows Mobile/WinCE are backwards compatible with machine code like Desktop Windows.
4. Open a command prompt, run your regular batch file to set the environment for desktop Visual C building, goto the perl source directory, cd into win32/, fill out Makefile, and do a "nmake all" to build a Desktop Perl.
5. Open win32/Makefile.ce in a text editor and do something similar to the following patch.
-CELIBDLLDIR = h:\src\wince\celib-palm-3.0
-CECONSOLEDIR = h:\src\wince\w32console
+CELIBDLLDIR = C:\sources\celib-palm-3.0
+CECONSOLEDIR = C:\sources\w32console
Also change
!if "$(MACHINE)" == ""
MACHINE=wince-arm-hpc-wce300
#MACHINE=wince-arm-hpc-wce211
#MACHINE=wince-sh3-hpc-wce211
#MACHINE=wince-mips-hpc-wce211
#MACHINE=wince-sh3-hpc-wce200
#MACHINE=wince-mips-hpc-wce200
#MACHINE=wince-arm-pocket-wce300
#MACHINE=wince-mips-pocket-wce300
#MACHINE=wince-sh3-pocket-wce300
#MACHINE=wince-x86em-pocket-wce300
#MACHINE=wince-mips-palm-wce211
#MACHINE=wince-sh3-palm-wce211
#MACHINE=wince-x86em-palm-wce211
#MACHINE=wince-x86-hpc-wce300
#MACHINE=wince-arm-pocket-wce400
!endif
to
!if "$(MACHINE)" == ""
#MACHINE=wince-arm-hpc-wce300
#MACHINE=wince-arm-hpc-wce211
#MACHINE=wince-sh3-hpc-wce211
#MACHINE=wince-mips-hpc-wce211
#MACHINE=wince-sh3-hpc-wce200
#MACHINE=wince-mips-hpc-wce200
#MACHINE=wince-arm-pocket-wce300
#MACHINE=wince-mips-pocket-wce300
#MACHINE=wince-sh3-pocket-wce300
#MACHINE=wince-x86em-pocket-wce300
#MACHINE=wince-mips-palm-wce211
#MACHINE=wince-sh3-palm-wce211
#MACHINE=wince-x86em-palm-wce211
#MACHINE=wince-x86-hpc-wce300
MACHINE=wince-arm-pocket-wce400
!endif
so wince-arm-pocket-wce400 is the MACHINE type.
6. Use a text editor to open "C:\Program Files\Microsoft eMbedded C++ 4.0\EVC\WCE400\BIN\WCEARMV4.BAT". Look for
if "%SDKROOT%"=="" set SDKROOT=...
On a new install it is "C:\Windows CE Tools". Goto "C:\Windows CE Tools" in a file manager and see if "C:\Windows CE Tools\wce400\STANDARDSDK\Include\Armv4" exists on your disk. If not the SDKROOT need to be changed to "C:\Program Files\Windows CE Tools".
Goto celib-palm-3.0\inc\cewin32.h, search for
typedef struct _ABC {
and uncomment the struct.
7. Open another command prompt, ensure PLATFORM is not set to anything already unless you know what you're doing (so that the correct default value is set by the next command), and run "C:\Program Files\Microsoft eMbedded C++ 4.0\EVC\WCE400\BIN\WCEARMV4.BAT"
8. In the WinCE command prompt you made with WCEARMV4.BAT, goto the perl source directory, cd into win32/ and run "nmake -f Makefile.ce".
9. The ARM perl interpreter (perl519.dll and perl.exe) will be in something like "C:\perl519\src\win32\wince-arm-pocket-wce400", with the XS DLLs in "C:\perl519\src\xlib\wince-arm-hpc-wce400\auto".
To prove success on the host machine, run "dumpbin /headers wince-arm-pocket-wce400\perl.exe" from the win32/ folder and look for "machine (ARM)" in the FILE HEADER VALUES and "subsystem (Windows CE GUI)" in the OPTIONAL HEADER VALUES.
This section describes the steps to be performed to build PerlCE. You may find additional information about building perl for WinCE at http://perlce.sourceforge.net and some pre-built binaries.
For compiling, you need following:
Microsoft Embedded Visual Tools
Microsoft Visual C++
Rainer Keuchel's celib-sources
Rainer Keuchel's console-sources
Needed source files can be downloaded at http://perlce.sourceforge.net
Normally you only need to edit ./win32/ce-helpers/compile.bat to reflect your system and run it.
File ./win32/ce-helpers/compile.bat is actually a wrapper to call nmake -f makefile.ce
with appropriate parameters and it accepts extra parameters and forwards them to nmake
command as additional arguments. You should pass target this way.
To prepare distribution you need to do following:
go to ./win32 subdirectory
edit file ./win32/ce-helpers/compile.bat
run compile.bat
run compile.bat dist
Makefile.ce has CROSS_NAME
macro, and it is used further to refer to your cross-compilation scheme. You could assign a name to it, but this is not necessary, because by default it is assigned after your machine configuration name, such as "wince-sh3-hpc-wce211", and this is enough to distinguish different builds at the same time. This option could be handy for several different builds on same platform to perform, say, threaded build. In a following example we assume that all required environment variables are set properly for C cross-compiler (a special *.bat file could fit perfectly to this purpose) and your compile.bat has proper "MACHINE" parameter set, to, say, wince-mips-pocket-wce300
.
compile.bat
compile.bat dist
compile.bat CROSS_NAME=mips-wce300-thr "USE_ITHREADS=define" ^
"USE_IMP_SYS=define" "USE_MULTI=define"
compile.bat CROSS_NAME=mips-wce300-thr "USE_ITHREADS=define" ^
"USE_IMP_SYS=define" "USE_MULTI=define" dist
If all goes okay and no errors during a build, you'll get two independent distributions: wince-mips-pocket-wce300
and mips-wce300-thr
.
Target dist
prepares distribution file set. Target zipdist
performs same as dist
but additionally compresses distribution files into zip archive.
NOTE: during a build there could be created a number (or one) of Config.pm for cross-compilation ("foreign" Config.pm) and those are hidden inside ../xlib/$(CROSS_NAME) with other auxiliary files, but, and this is important to note, there should be no Config.pm for host miniperl. If you'll get an error that perl could not find Config.pm somewhere in building process this means something went wrong. Most probably you forgot to specify a cross-compilation when invoking miniperl.exe to Makefile.PL When building an extension for cross-compilation your command line should look like
..\miniperl.exe -I..\lib -MCross=mips-wce300-thr Makefile.PL
or just
..\miniperl.exe -I..\lib -MCross Makefile.PL
to refer a cross-compilation that was created last time.
All questions related to building for WinCE devices could be asked in perlce-user@lists.sourceforge.net mailing list.
PerlCE is currently linked with a simple console window, so it also works on non-hpc devices.
The simple stdio implementation creates the files stdin.txt, stdout.txt and stderr.txt, so you might examine them if your console has only a limited number of cols.
When exitcode is non-zero, a message box appears, otherwise the console closes, so you might have to catch an exit with status 0 in your program to see any output.
stdout/stderr now go into the files /perl-stdout.txt and /perl-stderr.txt.
PerlIDE is handy to deal with perlce.
No fork(), pipe(), popen() etc.
All environment vars must be stored in HKLM\Environment as strings. They are read at process startup.
Usual perl lib path (semi-list).
Semi-list for executables.
- Tempdir.
- Root for accessing some special files, i.e. /dev/null, /etc/services.
- Rows/cols for console.
- Home directory.
- Size for console font.
You can set these with cereg.exe, a (remote) registry editor or via the PerlIDE.
To start perl by clicking on a perl source file, you have to make the according entries in HKCR (see ce-helpers/wince-reg.bat). cereg.exe (which must be executed on a desktop pc with ActiveSync) is reported not to work on some devices. You have to create the registry entries by hand using a registry editor.
The following Win32-Methods are built-in:
newXS("Win32::GetCwd", w32_GetCwd, file);
newXS("Win32::SetCwd", w32_SetCwd, file);
newXS("Win32::GetTickCount", w32_GetTickCount, file);
newXS("Win32::GetOSVersion", w32_GetOSVersion, file);
newXS("Win32::IsWinNT", w32_IsWinNT, file);
newXS("Win32::IsWin95", w32_IsWin95, file);
newXS("Win32::IsWinCE", w32_IsWinCE, file);
newXS("Win32::CopyFile", w32_CopyFile, file);
newXS("Win32::Sleep", w32_Sleep, file);
newXS("Win32::MessageBox", w32_MessageBox, file);
newXS("Win32::GetPowerStatus", w32_GetPowerStatus, file);
newXS("Win32::GetOemInfo", w32_GetOemInfo, file);
newXS("Win32::ShellEx", w32_ShellEx, file);
Opening files for read-write is currently not supported if they use stdio (normal perl file handles).
If you find bugs or if it does not work at all on your device, send mail to the address below. Please report the details of your device (processor, ceversion, devicetype (hpc/palm/pocket)) and the date of the downloaded files.
Currently installation instructions are at http://perlce.sourceforge.net/.
After installation & testing processes will stabilize, information will be more precise.
The port for Win32 was used as a reference.
Initial port of perl to WinCE. It was performed in separate directory named wince. This port was based on contents of ./win32 directory. miniperl was not built, user must have HOST perl and properly edit makefile.ce to reflect this.
wince port was kept in the same ./wince directory, and wince/Makefile.ce was used to invoke native compiler to create HOST miniperl, which then facilitates cross-compiling process. Extension building support was added.
Two directories ./win32 and ./wince were merged, so perlce build process comes in ./win32 directory.
provided initial port of Perl, which appears to be most essential work, as it was a breakthrough on having Perl ported at all. Many thanks and obligations to Rainer!
made further support of WinCE port.
updated the build process during the 5.19 development track.