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authorRichard Henderson <rth@redhat.com>1999-05-03 07:29:11 +0000
committerRichard Henderson <rth@redhat.com>1999-05-03 07:29:11 +0000
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+ This document explains a couple of things that are specific to VMS.
+There are currently two "chapters", the first deals with cross-assembly
+issues, and the second deals with the VMS debugger and GNU-CC.
+
+
+***********************************************************************
+****************** Notes for Cross Assembly with VMS ******************
+***********************************************************************
+
+ If you wish to build gas on a non-VMS system to cross-assemble,
+you should use:
+
+configure ${hosttype} -target=vms
+
+and then follow the usual procedure. The object files generated on
+Unix will be correct from a binary point of view, but the real trick is
+getting them to the VMS machine. The format of the object file is
+a variable-length record, but each record contains binary data. gas
+writes the records in the same format that VMS would expect,
+namely a two-byte count followed by that number of bytes.
+
+ If you try to copy the file to a VMS system using ftp, the ftp
+protocol will screw up the file by looking for nulls (record terminator for
+unix) and it will insert it's own record terminators at that point. This
+will obviously corrupt the file.
+
+ If you try to transfer the file with ftp in binary mode, the
+file itself will not be corrupt, but VMS will think that the file contains
+fixed-length records of 512 bytes. You can use the public-domain FILE
+utility to change this with a command like:
+
+$FILE foo.o/type=variable
+
+If you do not have this utility available, the following program can be
+used to perform this task:
+
+ #include <fab.h>
+
+ #define RME$C_SETRFM 1
+
+ struct FAB * fab;
+
+ main(int argc, char * argv[]){
+ int i, status;
+ fab = (struct FAB*) malloc(sizeof(struct FAB));
+ *fab = cc$rms_fab; /* initialize FAB*/
+ fab->fab$b_fac = FAB$M_PUT;
+ fab->fab$l_fop |= FAB$M_ESC;
+ fab->fab$l_ctx = RME$C_SETRFM;
+ fab->fab$w_ifi = 0;
+ for(i=1;i<argc;i++){
+ printf("Setting %s to variable length records.\n",argv[i]);
+ fab->fab$l_fna = argv[i];
+ fab->fab$b_fns = strlen(argv[i]);
+ status = sys$open(fab,0,0);
+ if((status & 7) != 1) lib$signal(status);
+ fab->fab$b_rfm = FAB$C_VAR;
+ status = sys$modify(fab,0,0);
+ if((status & 7) != 1) lib$signal(status);
+ status = sys$close(fab,0,0);
+ if((status & 7) != 1) lib$signal(status);
+ };
+ }
+
+ If you have NFS running on the VMS system, what you need to do
+depends upon which NFS software you are running on the VMS system. There
+are a number of different TCP/IP packages for VMS available, and only very
+limited testing has been performed. In the tests that has been done so
+far, the contents of the file will always be correct when transferring the
+file via NFS, but the record attributes may or may not be correct.
+
+ One proprietary TCP/IP/NFS package for VMS is known to
+automatically fix the record attributes of the object file if you NFS mount
+a unix disk from the VMS system, and if the file has a ".obj" extension on
+the unix system. Other TCP/IP packages might do this for you as well, but
+they have not been checked.
+
+No matter what method you use to get the file to the VMS system, it is
+always a good idea to check to make sure that it is the correct type by
+doing a "$dir/full" on the object file. The desired record attributes will
+be "None". Undesirable record attributes will be "Stream-LF" or anything
+else.
+
+Once you get the files on the VMS system, you can check their integrity
+with the "$anal/obj" command. (Naturally at some point you should rename
+the .o files to .obj). As far as the debugger is concerned, the records
+will be correct, but the debugger will not be able to find the source files,
+since it only has the file name, and not the full directory specification.
+You must give the debugger some help by telling it which directories to
+search for the individual files - once you have done this you should be
+able to proceed normally.
+
+ It is a good idea to use names for your files which will be valid
+under VMS, since otherwise you will have no way of getting the debugger to
+find the source file when deugging.
+
+The reason for this is that the object file normally contins specific
+information that the debugger can use to positively identify a file, and if
+you are assembling on a unix system this information simply does not exist
+in a meaningful way. You must help the debugger by using the "SET FILE="
+command to tell the debugger where to look for source files. The debugger
+records will be correct, except that the debugger will not be initially
+able to find the source files. You can use the "SET FILE" command to tell
+the debugger where to look for the source files.
+
+I have only tested this with a SVr4 i486 machine, and everything seems to
+work OK, with the limited testing that I have done. Other machines may
+or may not work. You should read the chapters on cross-compilers in the gcc
+manual before fooling with this. Since gas does not need to do any floating
+point arithmetic, the floating point constants that are generated here should
+be correct - the only concern is with constant folding in the main compiler.
+The range and precision of floats and doubles are similar on the 486 (with
+a builtin 80387) and the VAX, although there is a factor of 2 to 4
+difference in the range. The double, as implemented on the 486, is quite
+similar to the G_FLOAT on the VAX.
+
+***********************************************************************
+****************** Notes for using GNU CC with the VMS debugger********
+***********************************************************************
+
+
+ 1) You should be aware that GNU-C, as with any other decent compiler,
+will do things when optimization is turned on that you may not expect.
+Sometimes intermediate results are not written to variables, if they are only
+used in one place, and sometimes variables that are not used at all will not be
+written to the symbol table. Also, parameters to inline functions are often
+inaccessible. You can see the assembly code equivalent by using KP7 in the
+debugger, and from this you can tell if in fact a variable should have the
+value that you expect. You can find out if a variable lives withing a register
+by doing a 'show symbol/addr'.
+
+ 2) Overly complex data types, such as:
+
+int (*(*(*(*(*(* sarr6)[1])[1])[2])[3])[4])[5];
+
+will not be debugged properly, since the debugging record overflows an internal
+debugger buffer. gcc-as will convert these to *void as far as the debugger
+symbol table is concerned, which will avoid any problems, and the assembler
+will give you a message informing you that this has happened.
+
+ 3) You must, of course, compile and link with /debug. If you link
+without debug, you still get traceback table in the executable, but there is no
+symbol table for variables.
+
+ 4) Included in the patches to VMS.C are fixes to two bugs that are
+unrelated to the changes that I have made. One of these made it impossible to
+debug small programs sometimes, and the other caused the debugger to become
+confused about which routine it was in, and give this incorrect info in
+tracebacks.
+
+ 5) If you are using the GNU-C++ compiler, you should modify the
+compiler driver file GNU_CC:[000000]GCC.COM (or GXX.COM). If you have a
+seperate GXX.COM, then you need to change one line in GXX.COM to:
+$ if f$locate("D",p2) .ne. P2_Length then Debug = " ""-G0"""
+ Notice zero---> ^
+If you are using a GCC.COM that does both C and C++, add the following lines to
+GCC.COM:
+
+$!
+$! Use old style debugging records for VMS
+$!
+$ if (Debug.nes."" ).and. Plus then Debug = " ""-G0"""
+
+after the variables Plus and Debug are set. The reason for this, is that C++
+compiler by default generates debugging records that are more complex,
+with many new syntactical elements that allow for the new features of the
+language. The -G0 switch tells the C++ compiler to use the old style debugging
+records. Until the debugger understands C++ there is not any point to try and
+use the expanded syntax.
+
+ 6) When you have nested scopes, i.e.:
+main(){
+ int i;
+ {int i;
+ {int i;
+};};}
+and you say "EXAM i" the debugger needs to figure out which variable you
+actually want to reference. I have arranged things to define a block to the
+debugger when you use brackets to enter a new scope, so in the example above,
+the variables would be described as:
+TEST\main\i
+TEST\main\$0\i
+TEST\main\$0\$0\i
+At each level, the block name is a number with a dollar sign prefix, the
+numbers start with 0 and count upward. When you say EXAM i, the debugger looks
+at the current PC, and decides which block it is currently in. It works from
+the innermost level outward until it finds a block that has the variable "i"
+defined. You can always specify the scope explicitly.
+
+ 7) With C++, there can be a lot of inline functions, and it would be
+rather restrictive to force the user to debug the program by converting all of
+the inline functions to normal functions. What I have done is to essentially
+"add" (with the debugger) source lines from the include files that contain the
+inline functions. Thus when you step into an inline function it appears as if
+you have called the function, and you can examine variables and so forth.
+There are several *very* important differences, however. First of all, since
+there is no function call involved, you cannot step over the inline function
+call - you always step into it. Secondly, since the same source lines are used
+in many locations, there is a seperate copy of the source for *each* usage.
+Without this, breakpoints do not work, since we must have a 1-to-1 mapping
+between source lines and PC.
+ Since you cannot step over inline function calls, it can be a real pain
+if you are not really interested in what is going on for that function call.
+What I have done is to use the "-D" switch for the assembler to toggle the
+following behavior. With the "-D" switch, all inline functions are included in
+the object file, and you can debug everything. Without the "-D" switch
+(default case with VMS implementation), inline functions are included *only* if
+they did not come from system header files (i.e. from GNU_CC_INCLUDE: or
+GNU_GXX_INCLUDE:). Thus, without the switch the user only debugs his/her own
+inline functions, and not the system ones. (This is especially useful if you do
+a lot of stream I/O in C++). This probably will not provide enough granularity
+for many users, but for now this is still somewhat experimental, and I would
+like to reflect upon it and get some feedback before I go any further.
+Possible solutions include an interactive prompting, a logical name, or a new
+command line option in gcc.c (which is then passed through somehow to the guts
+of the assembler).
+ The inline functions from header files appear after the source code
+for the source file. This has the advantage that the source file itself is
+numbered with the same line numbers that you get with an editor. In addition,
+the entire header file is not included, since the assembler makes a list of
+the min and max source lines that are used, and only includes those lines from
+the first to the last actually used. (It is easy to change it to include the
+whole file).
+
+ 8) When you are debugging C++ objects, the object "this" is refered to
+as "$this". Actually, the compiler writes it as ".this", but the period is
+not good for the debugger, so I have a routine to convert it to a $. (It
+actually converts all periods to $, but only for variables, since this was
+intended to allow us to access "this".
+
+ 9) If you use the asm("...") keyword for global symbols, you will not
+be able to see that symbol with the debugger. The reason is that there are two
+records for the symbol stored in the data structures of the assembler. One
+contains the info such as psect number and offset, and the other one contains
+the information having to do with the data type of the variable. In order to
+debug as symbol, you need to be able to coorelate these records, and the only
+way to do this is by name. The record with the storage attributes will take
+the name used in the asm directive, and the record that specifies the data type
+has the actual variable name, and thus when you use the asm directive to change
+a variable name, the symbol becomes invisible.
+
+ 10) Older versions of the compiler ( GNU-C 1.37.92 and earlier) place
+global constants in the text psect. This is unfortunate, since to the linker
+this appears to be an entry point. I sent a patch to the compiler to RMS,
+which will generate a .const section for these variables, and patched the
+assembler to put these variables into a psect just like that for normal
+variables, except that they are marked NOWRT. static constants are still
+placed in the text psect, since there is no need for any external access.