Hsiangkai Wang via llvm-dev
2018-Mar-28 02:41 UTC
[llvm-dev] [RFC] Generate Debug Information for Labels in Function
Hello all, I would like to enhance LLVM debug info that supports setting breakpoint on labels in function. Generally, if users use GDB as their debugger, they could set breakpoints on labels in function. Following is an example. // C program static int myfunction (int arg) { int i, j, r; j = 0; /* myfunction location */ r = arg; top: ++j; /* top location */ if (j == 10) goto done; for (i = 0; i < 10; ++i) { r += i; if (j % 2) goto top; } done: return r; } int main (void) { int i, j; for (i = 0, j = 0; i < 1000; ++i) j += myfunction (0); return 0; } Following is the GDB commands to illustrate how to set breakpoints on labels. (gdb) b main Breakpoint 1 at 0x10298: file explicit.c, line 50. (gdb) r Starting program: /home/users/kai/sandbox/gdbtest/explicit-gcc Breakpoint 1, main () at explicit.c:50 50 for (i = 0, j = 0; i < 1000; ++i) (gdb) b myfunction:top Breakpoint 2 at 0x10214: file explicit.c, line 26. (gdb) c Continuing. Breakpoint 2, myfunction (arg=0) at explicit.c:27 27 ++j; /\* top location */ (gdb) However, LLVM does not generate debug information for labels. So, the feature could not work for binaries generated by clang. I also found that the problem is reported in PR35526 and PR36420. I propose an implementation plan to support debug information for labels. Following are the steps I propose to implement the feature. 1. Define debug metadata and intrinsic functions for labels. First of all, we need to record debug information in LLVM IR. In LLVM IR, LLVM uses metadata and intrinsic function to keep debug information. So, I need to define new kind of metadata, DILabel, and new intrinsic function, llvm.dbg.label, to associate DILabel with label statement. DILabel will contain name of the label, file metadata, line number, and scope metadata. Intrinsic function llvm.dbg.label uses DILabel metadata as its parameter. 2. Create MI instruction DBG_LABEL. I create new MI instruction DBG_LABEL to keep debug information after LLVM IR converted to MI. DBG_LABEL uses DILabel metadata as its parameter. 3. Create data structure, SDDbgLabel, to store debug information of labels in SelectionDAG. In SelectionDAG, we need a data structure to keep debug information of label. It will keep DILabel metadata. 4. Convert SDDbgLabel to DBG_LABEL in SelectionDAG. After EmitSchedule(), SelectionDAG will be converted to a list of MI instructions. In the function, we will generate DBG_LABEL MachineInstr from SDDbgLabel. For FastISel and GlobalISel, we could convert llvm.dbg.label to DBG_LABEL directly. 5. Collect debug information of labels from MI listing to DebugHandlerBase. Before generating actual debug information in assembly format or object format, we need to keep debug format-independent data in DebugHandlerBase. Afterwards, we could convert these data to CodeView format or DWARF format. 6. Create DWARF DIE specific data structure in DwarfDebug. In class DwarfDebug, we keep DWARF specific data structure for DILabel. 7. Generate DW_TAG_label and fill details of DW_TAG_label. Finally, generating DW_TAG_label DIE and its attributes into DIE structure. I am looking forward to any thoughts & feedback!
Reid Kleckner via llvm-dev
2018-Mar-28 03:08 UTC
[llvm-dev] [RFC] Generate Debug Information for Labels in Function
Sounds good to me. You can also see llvm.codeview.annotation which does a similar thing, but it is modeled as having internal, invisible side effects. These should stay separate, but it may provide a guide for implementation. On Tue, Mar 27, 2018 at 7:41 PM Hsiangkai Wang via llvm-dev < llvm-dev at lists.llvm.org> wrote:> Hello all, > > I would like to enhance LLVM debug info that supports setting > breakpoint on labels in function. > > Generally, if users use GDB as their debugger, they could set > breakpoints on labels in function. Following is an example. > > // C program > static int > myfunction (int arg) > { > int i, j, r; > > j = 0; /* myfunction location */ > r = arg; > > top: > ++j; /* top location */ > > if (j == 10) > goto done; > > for (i = 0; i < 10; ++i) > { > r += i; > if (j % 2) > goto top; > } > > done: > return r; > } > > int > main (void) > { > int i, j; > > for (i = 0, j = 0; i < 1000; ++i) > j += myfunction (0); > > return 0; > } > > Following is the GDB commands to illustrate how to set breakpoints on > labels. > > (gdb) b main > Breakpoint 1 at 0x10298: file explicit.c, line 50. > (gdb) r > Starting program: /home/users/kai/sandbox/gdbtest/explicit-gcc > > Breakpoint 1, main () at explicit.c:50 > 50 for (i = 0, j = 0; i < 1000; ++i) > (gdb) b myfunction:top > Breakpoint 2 at 0x10214: file explicit.c, line 26. > (gdb) c > Continuing. > > Breakpoint 2, myfunction (arg=0) at explicit.c:27 > 27 ++j; /\* top location */ > (gdb) > > However, LLVM does not generate debug information for labels. So, the > feature could not work for binaries generated by clang. I also found > that the problem is reported in PR35526 and PR36420. I propose an > implementation plan to support debug information for labels. > > Following are the steps I propose to implement the feature. > > 1. Define debug metadata and intrinsic functions for labels. > > First of all, we need to record debug information in LLVM IR. In LLVM > IR, LLVM uses metadata and intrinsic function to keep debug > information. So, I need to define new kind of metadata, DILabel, and > new intrinsic function, llvm.dbg.label, to associate DILabel with > label statement. > > DILabel will contain name of the label, file metadata, line number, > and scope metadata. > > Intrinsic function llvm.dbg.label uses DILabel metadata as its parameter. > > 2. Create MI instruction DBG_LABEL. > > I create new MI instruction DBG_LABEL to keep debug information after > LLVM IR converted to MI. > > DBG_LABEL uses DILabel metadata as its parameter. > > 3. Create data structure, SDDbgLabel, to store debug information of > labels in SelectionDAG. > > In SelectionDAG, we need a data structure to keep debug information of > label. It will keep DILabel metadata. > > 4. Convert SDDbgLabel to DBG_LABEL in SelectionDAG. > > After EmitSchedule(), SelectionDAG will be converted to a list of MI > instructions. In the function, we will generate DBG_LABEL MachineInstr > from SDDbgLabel. > > For FastISel and GlobalISel, we could convert llvm.dbg.label to > DBG_LABEL directly. > > 5. Collect debug information of labels from MI listing to DebugHandlerBase. > > Before generating actual debug information in assembly format or > object format, we need to keep debug format-independent data in > DebugHandlerBase. Afterwards, we could convert these data to CodeView > format or DWARF format. > > 6. Create DWARF DIE specific data structure in DwarfDebug. > > In class DwarfDebug, we keep DWARF specific data structure for DILabel. > > 7. Generate DW_TAG_label and fill details of DW_TAG_label. > > Finally, generating DW_TAG_label DIE and its attributes into DIE structure. > > I am looking forward to any thoughts & feedback! > _______________________________________________ > LLVM Developers mailing list > llvm-dev at lists.llvm.org > http://lists.llvm.org/cgi-bin/mailman/listinfo/llvm-dev >-------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20180328/34de09a7/attachment.html>
陳韋任 via llvm-dev
2018-Mar-28 13:12 UTC
[llvm-dev] [RFC] Generate Debug Information for Labels in Function
LGTM. I think you can sent patch and let the ball rolling! I would like to review it. ;) 2018-03-28 10:41 GMT+08:00 Hsiangkai Wang via llvm-dev <llvm-dev at lists.llvm.org>:> Hello all, > > I would like to enhance LLVM debug info that supports setting > breakpoint on labels in function. > > Generally, if users use GDB as their debugger, they could set > breakpoints on labels in function. Following is an example. > > // C program > static int > myfunction (int arg) > { > int i, j, r; > > j = 0; /* myfunction location */ > r = arg; > > top: > ++j; /* top location */ > > if (j == 10) > goto done; > > for (i = 0; i < 10; ++i) > { > r += i; > if (j % 2) > goto top; > } > > done: > return r; > } > > int > main (void) > { > int i, j; > > for (i = 0, j = 0; i < 1000; ++i) > j += myfunction (0); > > return 0; > } > > Following is the GDB commands to illustrate how to set breakpoints on labels. > > (gdb) b main > Breakpoint 1 at 0x10298: file explicit.c, line 50. > (gdb) r > Starting program: /home/users/kai/sandbox/gdbtest/explicit-gcc > > Breakpoint 1, main () at explicit.c:50 > 50 for (i = 0, j = 0; i < 1000; ++i) > (gdb) b myfunction:top > Breakpoint 2 at 0x10214: file explicit.c, line 26. > (gdb) c > Continuing. > > Breakpoint 2, myfunction (arg=0) at explicit.c:27 > 27 ++j; /\* top location */ > (gdb) > > However, LLVM does not generate debug information for labels. So, the > feature could not work for binaries generated by clang. I also found > that the problem is reported in PR35526 and PR36420. I propose an > implementation plan to support debug information for labels. > > Following are the steps I propose to implement the feature. > > 1. Define debug metadata and intrinsic functions for labels. > > First of all, we need to record debug information in LLVM IR. In LLVM > IR, LLVM uses metadata and intrinsic function to keep debug > information. So, I need to define new kind of metadata, DILabel, and > new intrinsic function, llvm.dbg.label, to associate DILabel with > label statement. > > DILabel will contain name of the label, file metadata, line number, > and scope metadata. > > Intrinsic function llvm.dbg.label uses DILabel metadata as its parameter. > > 2. Create MI instruction DBG_LABEL. > > I create new MI instruction DBG_LABEL to keep debug information after > LLVM IR converted to MI. > > DBG_LABEL uses DILabel metadata as its parameter. > > 3. Create data structure, SDDbgLabel, to store debug information of > labels in SelectionDAG. > > In SelectionDAG, we need a data structure to keep debug information of > label. It will keep DILabel metadata. > > 4. Convert SDDbgLabel to DBG_LABEL in SelectionDAG. > > After EmitSchedule(), SelectionDAG will be converted to a list of MI > instructions. In the function, we will generate DBG_LABEL MachineInstr > from SDDbgLabel. > > For FastISel and GlobalISel, we could convert llvm.dbg.label to > DBG_LABEL directly. > > 5. Collect debug information of labels from MI listing to DebugHandlerBase. > > Before generating actual debug information in assembly format or > object format, we need to keep debug format-independent data in > DebugHandlerBase. Afterwards, we could convert these data to CodeView > format or DWARF format. > > 6. Create DWARF DIE specific data structure in DwarfDebug. > > In class DwarfDebug, we keep DWARF specific data structure for DILabel. > > 7. Generate DW_TAG_label and fill details of DW_TAG_label. > > Finally, generating DW_TAG_label DIE and its attributes into DIE structure. > > I am looking forward to any thoughts & feedback! > _______________________________________________ > LLVM Developers mailing list > llvm-dev at lists.llvm.org > http://lists.llvm.org/cgi-bin/mailman/listinfo/llvm-dev-- Wei-Ren Chen (陳韋任) Homepage: https://people.cs.nctu.edu.tw/~chenwj
Hsiangkai Wang via llvm-dev
2018-Mar-28 15:45 UTC
[llvm-dev] [RFC] Generate Debug Information for Labels in Function
Hi Reid, Thanks for your suggestions. I dug in the implementation of llvm.codeview.annotation. It seems to create a temp symbol as handling Intrinsic::codeview_annotation and keep the mapping of this temp symbol to some metadata. The mapping will be kept in MachineFunction. Although it converts this intrinsic function to ANNOTATION_LABEL MI, it seems no use of ANNOTATION_LABEL MI. All the debug information generated from CodeViewDebug depends on mappings kept in MachineFunction. It is very different with the scenario to enable debugging with label. Debugging with label needs to know file, line, and address of labels in functions. It needs to keep these information from LLVM IR down to MI and generate assembly through AsmPrinter finally. I will send patches after I finish some clean up of these patches. Thanks a lot anyway. On Wed, Mar 28, 2018 at 11:08 AM, Reid Kleckner <rnk at google.com> wrote:> Sounds good to me. You can also see llvm.codeview.annotation which does a > similar thing, but it is modeled as having internal, invisible side effects. > These should stay separate, but it may provide a guide for implementation. > > On Tue, Mar 27, 2018 at 7:41 PM Hsiangkai Wang via llvm-dev > <llvm-dev at lists.llvm.org> wrote: >> >> Hello all, >> >> I would like to enhance LLVM debug info that supports setting >> breakpoint on labels in function. >> >> Generally, if users use GDB as their debugger, they could set >> breakpoints on labels in function. Following is an example. >> >> // C program >> static int >> myfunction (int arg) >> { >> int i, j, r; >> >> j = 0; /* myfunction location */ >> r = arg; >> >> top: >> ++j; /* top location */ >> >> if (j == 10) >> goto done; >> >> for (i = 0; i < 10; ++i) >> { >> r += i; >> if (j % 2) >> goto top; >> } >> >> done: >> return r; >> } >> >> int >> main (void) >> { >> int i, j; >> >> for (i = 0, j = 0; i < 1000; ++i) >> j += myfunction (0); >> >> return 0; >> } >> >> Following is the GDB commands to illustrate how to set breakpoints on >> labels. >> >> (gdb) b main >> Breakpoint 1 at 0x10298: file explicit.c, line 50. >> (gdb) r >> Starting program: /home/users/kai/sandbox/gdbtest/explicit-gcc >> >> Breakpoint 1, main () at explicit.c:50 >> 50 for (i = 0, j = 0; i < 1000; ++i) >> (gdb) b myfunction:top >> Breakpoint 2 at 0x10214: file explicit.c, line 26. >> (gdb) c >> Continuing. >> >> Breakpoint 2, myfunction (arg=0) at explicit.c:27 >> 27 ++j; /\* top location */ >> (gdb) >> >> However, LLVM does not generate debug information for labels. So, the >> feature could not work for binaries generated by clang. I also found >> that the problem is reported in PR35526 and PR36420. I propose an >> implementation plan to support debug information for labels. >> >> Following are the steps I propose to implement the feature. >> >> 1. Define debug metadata and intrinsic functions for labels. >> >> First of all, we need to record debug information in LLVM IR. In LLVM >> IR, LLVM uses metadata and intrinsic function to keep debug >> information. So, I need to define new kind of metadata, DILabel, and >> new intrinsic function, llvm.dbg.label, to associate DILabel with >> label statement. >> >> DILabel will contain name of the label, file metadata, line number, >> and scope metadata. >> >> Intrinsic function llvm.dbg.label uses DILabel metadata as its parameter. >> >> 2. Create MI instruction DBG_LABEL. >> >> I create new MI instruction DBG_LABEL to keep debug information after >> LLVM IR converted to MI. >> >> DBG_LABEL uses DILabel metadata as its parameter. >> >> 3. Create data structure, SDDbgLabel, to store debug information of >> labels in SelectionDAG. >> >> In SelectionDAG, we need a data structure to keep debug information of >> label. It will keep DILabel metadata. >> >> 4. Convert SDDbgLabel to DBG_LABEL in SelectionDAG. >> >> After EmitSchedule(), SelectionDAG will be converted to a list of MI >> instructions. In the function, we will generate DBG_LABEL MachineInstr >> from SDDbgLabel. >> >> For FastISel and GlobalISel, we could convert llvm.dbg.label to >> DBG_LABEL directly. >> >> 5. Collect debug information of labels from MI listing to >> DebugHandlerBase. >> >> Before generating actual debug information in assembly format or >> object format, we need to keep debug format-independent data in >> DebugHandlerBase. Afterwards, we could convert these data to CodeView >> format or DWARF format. >> >> 6. Create DWARF DIE specific data structure in DwarfDebug. >> >> In class DwarfDebug, we keep DWARF specific data structure for DILabel. >> >> 7. Generate DW_TAG_label and fill details of DW_TAG_label. >> >> Finally, generating DW_TAG_label DIE and its attributes into DIE >> structure. >> >> I am looking forward to any thoughts & feedback! >> _______________________________________________ >> LLVM Developers mailing list >> llvm-dev at lists.llvm.org >> http://lists.llvm.org/cgi-bin/mailman/listinfo/llvm-dev
Hsiangkai Wang via llvm-dev
2018-Mar-28 15:53 UTC
[llvm-dev] [RFC] Generate Debug Information for Labels in Function
Hi 韋任, I will send my patches after I polish them in more detail. I am looking forward to your review. Thanks a lot. On Wed, Mar 28, 2018 at 9:12 PM, 陳韋任 <chenwj.cs97g at g2.nctu.edu.tw> wrote:> LGTM. I think you can sent patch and let the ball rolling! I would > like to review it. ;) > > 2018-03-28 10:41 GMT+08:00 Hsiangkai Wang via llvm-dev > <llvm-dev at lists.llvm.org>: >> Hello all, >> >> I would like to enhance LLVM debug info that supports setting >> breakpoint on labels in function. >> >> Generally, if users use GDB as their debugger, they could set >> breakpoints on labels in function. Following is an example. >> >> // C program >> static int >> myfunction (int arg) >> { >> int i, j, r; >> >> j = 0; /* myfunction location */ >> r = arg; >> >> top: >> ++j; /* top location */ >> >> if (j == 10) >> goto done; >> >> for (i = 0; i < 10; ++i) >> { >> r += i; >> if (j % 2) >> goto top; >> } >> >> done: >> return r; >> } >> >> int >> main (void) >> { >> int i, j; >> >> for (i = 0, j = 0; i < 1000; ++i) >> j += myfunction (0); >> >> return 0; >> } >> >> Following is the GDB commands to illustrate how to set breakpoints on labels. >> >> (gdb) b main >> Breakpoint 1 at 0x10298: file explicit.c, line 50. >> (gdb) r >> Starting program: /home/users/kai/sandbox/gdbtest/explicit-gcc >> >> Breakpoint 1, main () at explicit.c:50 >> 50 for (i = 0, j = 0; i < 1000; ++i) >> (gdb) b myfunction:top >> Breakpoint 2 at 0x10214: file explicit.c, line 26. >> (gdb) c >> Continuing. >> >> Breakpoint 2, myfunction (arg=0) at explicit.c:27 >> 27 ++j; /\* top location */ >> (gdb) >> >> However, LLVM does not generate debug information for labels. So, the >> feature could not work for binaries generated by clang. I also found >> that the problem is reported in PR35526 and PR36420. I propose an >> implementation plan to support debug information for labels. >> >> Following are the steps I propose to implement the feature. >> >> 1. Define debug metadata and intrinsic functions for labels. >> >> First of all, we need to record debug information in LLVM IR. In LLVM >> IR, LLVM uses metadata and intrinsic function to keep debug >> information. So, I need to define new kind of metadata, DILabel, and >> new intrinsic function, llvm.dbg.label, to associate DILabel with >> label statement. >> >> DILabel will contain name of the label, file metadata, line number, >> and scope metadata. >> >> Intrinsic function llvm.dbg.label uses DILabel metadata as its parameter. >> >> 2. Create MI instruction DBG_LABEL. >> >> I create new MI instruction DBG_LABEL to keep debug information after >> LLVM IR converted to MI. >> >> DBG_LABEL uses DILabel metadata as its parameter. >> >> 3. Create data structure, SDDbgLabel, to store debug information of >> labels in SelectionDAG. >> >> In SelectionDAG, we need a data structure to keep debug information of >> label. It will keep DILabel metadata. >> >> 4. Convert SDDbgLabel to DBG_LABEL in SelectionDAG. >> >> After EmitSchedule(), SelectionDAG will be converted to a list of MI >> instructions. In the function, we will generate DBG_LABEL MachineInstr >> from SDDbgLabel. >> >> For FastISel and GlobalISel, we could convert llvm.dbg.label to >> DBG_LABEL directly. >> >> 5. Collect debug information of labels from MI listing to DebugHandlerBase. >> >> Before generating actual debug information in assembly format or >> object format, we need to keep debug format-independent data in >> DebugHandlerBase. Afterwards, we could convert these data to CodeView >> format or DWARF format. >> >> 6. Create DWARF DIE specific data structure in DwarfDebug. >> >> In class DwarfDebug, we keep DWARF specific data structure for DILabel. >> >> 7. Generate DW_TAG_label and fill details of DW_TAG_label. >> >> Finally, generating DW_TAG_label DIE and its attributes into DIE structure. >> >> I am looking forward to any thoughts & feedback! >> _______________________________________________ >> LLVM Developers mailing list >> llvm-dev at lists.llvm.org >> http://lists.llvm.org/cgi-bin/mailman/listinfo/llvm-dev > > > > -- > Wei-Ren Chen (陳韋任) > Homepage: https://people.cs.nctu.edu.tw/~chenwj
Adrian Prantl via llvm-dev
2018-Mar-29 16:05 UTC
[llvm-dev] [RFC] Generate Debug Information for Labels in Function
> > On Mar 27, 2018, at 7:41 PM, Hsiangkai Wang via llvm-dev <llvm-dev at lists.llvm.org> wrote: > > Hello all, > > I would like to enhance LLVM debug info that supports setting > breakpoint on labels in function. > > Generally, if users use GDB as their debugger, they could set > breakpoints on labels in function. Following is an example. > > // C program > static int > myfunction (int arg) > { > int i, j, r; > > j = 0; /* myfunction location */ > r = arg; > > top: > ++j; /* top location */ > > if (j == 10) > goto done; > > for (i = 0; i < 10; ++i) > { > r += i; > if (j % 2) > goto top; > } > > done: > return r; > } > > int > main (void) > { > int i, j; > > for (i = 0, j = 0; i < 1000; ++i) > j += myfunction (0); > > return 0; > } > > Following is the GDB commands to illustrate how to set breakpoints on labels. > > (gdb) b main > Breakpoint 1 at 0x10298: file explicit.c, line 50. > (gdb) r > Starting program: /home/users/kai/sandbox/gdbtest/explicit-gcc > > Breakpoint 1, main () at explicit.c:50 > 50 for (i = 0, j = 0; i < 1000; ++i) > (gdb) b myfunction:top > Breakpoint 2 at 0x10214: file explicit.c, line 26. > (gdb) c > Continuing. > > Breakpoint 2, myfunction (arg=0) at explicit.c:27 > 27 ++j; /\* top location */ > (gdb) > > However, LLVM does not generate debug information for labels. So, the > feature could not work for binaries generated by clang. I also found > that the problem is reported in PR35526 and PR36420. I propose an > implementation plan to support debug information for labels.Thank you for working on this! I think it would be good to support labels better. IIRC it currently only generates them from assembler sources in place of a DW_TAG_subprogram.> Following are the steps I propose to implement the feature. > > 1. Define debug metadata and intrinsic functions for labels. > > First of all, we need to record debug information in LLVM IR. In LLVM > IR, LLVM uses metadata and intrinsic function to keep debug > information. So, I need to define new kind of metadata, DILabel, and > new intrinsic function, llvm.dbg.label, to associate DILabel with > label statement. > > DILabel will contain name of the label, file metadata, line number, > and scope metadata. > > Intrinsic function llvm.dbg.label uses DILabel metadata as its parameter.Looking at your testcase in https://reviews.llvm.org/D45043 br label %top top: call void @llvm.dbg.label(metadata !10), !dbg !11 %0 = load i32, i32* %a.addr, align 4 Modelling the IR this way is problematic. In a llvm.dbg.value intrinsic we tie the SSA value the intrinsic describes to the intrinsic by making it an explicit argument of the intrinsic. In the example above, this is not the case, and optimizations will likely move the label and the intrinsic further apart, or even duplicate the intrinsic during loop unrolling. If you want to have additional metadata for a label, I think it would be better to allow a BasicBlock to carry a !dbg attachment. In IR assembler this could look like this: top, !label !10, !dbg !11: That said, perhaps this isn't even necessary. The only information that is stored in DILabel is the name of the label (which is redundant with the actual name of the label) and its source location, which is also stored in the DILocation (!11). I'm wondering if the DILocation of a label is even useful. When a debugger user sets a breakpoint of a label, we might as well use the location of the first instruction in the basic block described by the label, since that is where execution will continue. Based on that I think it might be sufficient to have a flag on an IR label that marks a user-originated label and triggers the backend to create a DW_TAG_label for it. If we do need source location information for the DW_TAG_label, we could grab it from the first instruction. Let me know what you think! -- adrian> > 2. Create MI instruction DBG_LABEL. > > I create new MI instruction DBG_LABEL to keep debug information after > LLVM IR converted to MI. > > DBG_LABEL uses DILabel metadata as its parameter. > > 3. Create data structure, SDDbgLabel, to store debug information of > labels in SelectionDAG. > > In SelectionDAG, we need a data structure to keep debug information of > label. It will keep DILabel metadata. > > 4. Convert SDDbgLabel to DBG_LABEL in SelectionDAG. > > After EmitSchedule(), SelectionDAG will be converted to a list of MI > instructions. In the function, we will generate DBG_LABEL MachineInstr > from SDDbgLabel. > > For FastISel and GlobalISel, we could convert llvm.dbg.label to > DBG_LABEL directly. > > 5. Collect debug information of labels from MI listing to DebugHandlerBase. > > Before generating actual debug information in assembly format or > object format, we need to keep debug format-independent data in > DebugHandlerBase. Afterwards, we could convert these data to CodeView > format or DWARF format. > > 6. Create DWARF DIE specific data structure in DwarfDebug. > > In class DwarfDebug, we keep DWARF specific data structure for DILabel. > > 7. Generate DW_TAG_label and fill details of DW_TAG_label. > > Finally, generating DW_TAG_label DIE and its attributes into DIE structure. > > I am looking forward to any thoughts & feedback! > _______________________________________________ > LLVM Developers mailing list > llvm-dev at lists.llvm.org > http://lists.llvm.org/cgi-bin/mailman/listinfo/llvm-dev
via llvm-dev
2018-Mar-29 17:53 UTC
[llvm-dev] [RFC] Generate Debug Information for Labels in Function
> Based on that I think it might be sufficient to have a flag on an IR label > that marks a user-originated label and triggers the backend to create a > DW_TAG_label for it. If we do need source location information for the > DW_TAG_label, we could grab it from the first instruction.Are there languages where labels are scoped? If so we'd need explicit metadata to identify the parent scope. In C/C++ the only scope is the containing function, which I'm guessing we wouldn't need to specify (except for inlined functions? that might need some care to get right). I feel compelled to point out that the top instructions in a block do not necessarily have a valid source location so we might want to carry that explicitly just for sanity's sake. --paulr
Hsiangkai Wang via llvm-dev
2018-Mar-30 06:29 UTC
[llvm-dev] [RFC] Generate Debug Information for Labels in Function
On Fri, Mar 30, 2018 at 12:05 AM, Adrian Prantl <aprantl at apple.com> wrote:>> >> On Mar 27, 2018, at 7:41 PM, Hsiangkai Wang via llvm-dev <llvm-dev at lists.llvm.org> wrote: >> >> Hello all, >> >> I would like to enhance LLVM debug info that supports setting >> breakpoint on labels in function. >> >> Generally, if users use GDB as their debugger, they could set >> breakpoints on labels in function. Following is an example. >> >> // C program >> static int >> myfunction (int arg) >> { >> int i, j, r; >> >> j = 0; /* myfunction location */ >> r = arg; >> >> top: >> ++j; /* top location */ >> >> if (j == 10) >> goto done; >> >> for (i = 0; i < 10; ++i) >> { >> r += i; >> if (j % 2) >> goto top; >> } >> >> done: >> return r; >> } >> >> int >> main (void) >> { >> int i, j; >> >> for (i = 0, j = 0; i < 1000; ++i) >> j += myfunction (0); >> >> return 0; >> } >> >> Following is the GDB commands to illustrate how to set breakpoints on labels. >> >> (gdb) b main >> Breakpoint 1 at 0x10298: file explicit.c, line 50. >> (gdb) r >> Starting program: /home/users/kai/sandbox/gdbtest/explicit-gcc >> >> Breakpoint 1, main () at explicit.c:50 >> 50 for (i = 0, j = 0; i < 1000; ++i) >> (gdb) b myfunction:top >> Breakpoint 2 at 0x10214: file explicit.c, line 26. >> (gdb) c >> Continuing. >> >> Breakpoint 2, myfunction (arg=0) at explicit.c:27 >> 27 ++j; /\* top location */ >> (gdb) >> >> However, LLVM does not generate debug information for labels. So, the >> feature could not work for binaries generated by clang. I also found >> that the problem is reported in PR35526 and PR36420. I propose an >> implementation plan to support debug information for labels. > > Thank you for working on this! I think it would be good to support labels better. IIRC it currently only generates them from assembler sources in place of a DW_TAG_subprogram. > > >> Following are the steps I propose to implement the feature. >> >> 1. Define debug metadata and intrinsic functions for labels. >> >> First of all, we need to record debug information in LLVM IR. In LLVM >> IR, LLVM uses metadata and intrinsic function to keep debug >> information. So, I need to define new kind of metadata, DILabel, and >> new intrinsic function, llvm.dbg.label, to associate DILabel with >> label statement. >> >> DILabel will contain name of the label, file metadata, line number, >> and scope metadata. >> >> Intrinsic function llvm.dbg.label uses DILabel metadata as its parameter. > > Looking at your testcase in https://reviews.llvm.org/D45043 > > > br label %top > > top: > call void @llvm.dbg.label(metadata !10), !dbg !11 > %0 = load i32, i32* %a.addr, align 4 > > Modelling the IR this way is problematic. In a llvm.dbg.value intrinsic we tie the SSA value the intrinsic describes to the intrinsic by making it an explicit argument of the intrinsic. In the example above, this is not the case, and optimizations will likely move the label and the intrinsic further apart, or even duplicate the intrinsic during loop unrolling. If you want to have additional metadata for a label, I think it would be better to allow a BasicBlock to carry a !dbg attachment. In IR assembler this could look like this: > > top, !label !10, !dbg !11: >I agree with you. Attach debug metadata to basic block will be a better solution. I will change my design to convey debug metadata through basic block instead of intrinsic. https://reviews.llvm.org/D45078> That said, perhaps this isn't even necessary. The only information that is stored in DILabel is the name of the label (which is redundant with the actual name of the label) and its source location, which is also stored in the DILocation (!11). I'm wondering if the DILocation of a label is even useful. When a debugger user sets a breakpoint of a label, we might as well use the location of the first instruction in the basic block described by the label, since that is where execution will continue. > > Based on that I think it might be sufficient to have a flag on an IR label that marks a user-originated label and triggers the backend to create a DW_TAG_label for it. If we do need source location information for the DW_TAG_label, we could grab it from the first instruction.I still think that we should collect debug information from source code level instead of infer from instructions in the basic block. As Paul said, "the top instructions in a block do not necessarily have a valid source location." So, I will keep DILabel metadata and remove llvm.dbg.label intrinsic.> > Let me know what you think! > -- adrian > >> >> 2. Create MI instruction DBG_LABEL. >> >> I create new MI instruction DBG_LABEL to keep debug information after >> LLVM IR converted to MI. >> >> DBG_LABEL uses DILabel metadata as its parameter. >> >> 3. Create data structure, SDDbgLabel, to store debug information of >> labels in SelectionDAG. >> >> In SelectionDAG, we need a data structure to keep debug information of >> label. It will keep DILabel metadata. >> >> 4. Convert SDDbgLabel to DBG_LABEL in SelectionDAG. >> >> After EmitSchedule(), SelectionDAG will be converted to a list of MI >> instructions. In the function, we will generate DBG_LABEL MachineInstr >> from SDDbgLabel. >> >> For FastISel and GlobalISel, we could convert llvm.dbg.label to >> DBG_LABEL directly. >> >> 5. Collect debug information of labels from MI listing to DebugHandlerBase. >> >> Before generating actual debug information in assembly format or >> object format, we need to keep debug format-independent data in >> DebugHandlerBase. Afterwards, we could convert these data to CodeView >> format or DWARF format. >> >> 6. Create DWARF DIE specific data structure in DwarfDebug. >> >> In class DwarfDebug, we keep DWARF specific data structure for DILabel. >> >> 7. Generate DW_TAG_label and fill details of DW_TAG_label. >> >> Finally, generating DW_TAG_label DIE and its attributes into DIE structure. >> >> I am looking forward to any thoughts & feedback! >> _______________________________________________ >> LLVM Developers mailing list >> llvm-dev at lists.llvm.org >> http://lists.llvm.org/cgi-bin/mailman/listinfo/llvm-dev >
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- [RFC] Generate Debug Information for Labels in Function
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- [RFC] Generate Debug Information for Labels in Function
- [RFC] Generate Debug Information for Labels in Function