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2024-06-07gdb: replace `get_exec_file (0)` calls with ↵Simon Marchi1-2/+2
`current_program_space->exec_filename ()` Calls of `get_exec_file (0)` are equivalent to just getting the exec filename from the current program space. I'm looking to remove `get_exec_file`, so replace these uses with `current_program_space->exec_filename ()`. Remove the `err` parameter of `get_exec_wrapper` since all the calls that remain pass 1, meaning to error out if no executable is specified. Change-Id: I7729ea4c7f03dbb046211cc5aa3858ab3a551965 Approved-By: Tom Tromey <tom@tromey.com>
2024-05-30gdb: remove unused includes in utils.hSimon Marchi1-0/+1
Remove some includes reported as unused by clangd. Add some includes in other files that were previously relying on the transitive include. Change-Id: Ibdd0a998b04d21362a20d0ca8e5267e21e2e133e
2024-03-26gdb, gdbserver, gdbsupport: remove includes of early headersSimon Marchi1-1/+0
Now that defs.h, server.h and common-defs.h are included via the `-include` option, it is no longer necessary for source files to include them. Remove all the inclusions of these files I could find. Update the generation scripts where relevant. Change-Id: Ia026cff269c1b7ae7386dd3619bc9bb6a5332837 Approved-By: Pedro Alves <pedro@palves.net>
2024-01-12Update copyright year range in header of all files managed by GDBAndrew Burgess1-1/+1
This commit is the result of the following actions: - Running gdb/copyright.py to update all of the copyright headers to include 2024, - Manually updating a few files the copyright.py script told me to update, these files had copyright headers embedded within the file, - Regenerating gdbsupport/Makefile.in to refresh it's copyright date, - Using grep to find other files that still mentioned 2023. If these files were updated last year from 2022 to 2023 then I've updated them this year to 2024. I'm sure I've probably missed some dates. Feel free to fix them up as you spot them.
2023-10-03gdb/corefile: write NT_GDB_TDESC based on signalled threadAndrew Burgess1-2/+6
When creating a core file from within GDB we include a NT_GDB_TDESC that includes the target description of the architecture in use. For architectures with dynamic architectures (e.g. AArch64 with sve/sme) the original architecture, calculated from the original target description, might not match the per-thread architecture. In the general case, where each thread has a different architecture, then we really need a separate NT_GDB_TDESC for each thread, however, there's currently no way to read in multiple NT_GDB_TDESC. This commit is a step towards per-thread NT_GDB_TDESC. In this commit I have updated the function that writes the NT_GDB_TDESC to accept a gdbarch (rather than calling target_gdbarch() to find a gdbarch), and I now pass in the gdbarch of the signalled thread. In many cases (though NOT all) targets with dynamic architectures really only use a single architecture, even when there are multiple threads, so in the common case, this should ensure that GDB emits an architecture that is more likely to be correct. Additional work will be needed in order to support corefiles with truly per-thread architectures, but that will need to be done in the future.
2023-09-20Remove explanatory comments from includesTom Tromey1-1/+1
I noticed a comment by an include and remembered that I think these don't really provide much value -- sometimes they are just editorial, and sometimes they are obsolete. I think it's better to just remove them. Tested by rebuilding. Approved-By: Andrew Burgess <aburgess@redhat.com>
2023-01-01Update copyright year range in header of all files managed by GDBJoel Brobecker1-1/+1
This commit is the result of running the gdb/copyright.py script, which automated the update of the copyright year range for all source files managed by the GDB project to be updated to include year 2023.
2022-01-01Automatic Copyright Year update after running gdb/copyright.pyJoel Brobecker1-1/+1
This commit brings all the changes made by running gdb/copyright.py as per GDB's Start of New Year Procedure. For the avoidance of doubt, all changes in this commits were performed by the script.
2021-07-23gdb: make inferior::m_args an std::stringSimon Marchi1-3/+3
With the current code, both a NULL pointer and an empty string can mean "no arguments". We don't need this distinction. Changing to a string has the advantage that there is now a single state for that (an empty string), which makes the code a bit simpler in my opinion. Change-Id: Icdc622820f7869478791dbaa84b4a1c7fec21ced
2021-07-23gdb: add setter/getter for inferior argumentsSimon Marchi1-1/+1
Add args/set_args to the inferior class, remove the set_inferior_args and get_inferior_args functions, that would just be wrappers around them. Change-Id: If87d52f3402ce08be26c32897ae8915d9f6d1ea3
2021-07-12gdb: make thread_info::suspend private, add getters / settersSimon Marchi1-1/+1
A following patch will want to take some action when a pending wait status is set on or removed from a thread. Add a getter and a setter on thread_info for the pending waitstatus, so that we can add some code in the setter later. The thing is, the pending wait status field is in the thread_suspend_state, along with other fields that we need to backup before and restore after the thread does an inferior function call. Therefore, make the thread_suspend_state member private (thread_info::suspend becomes thread_info::m_suspend), and add getters / setters for all of its fields: - pending wait status - stop signal - stop reason - stop pc For the pending wait status, add the additional has_pending_waitstatus and clear_pending_waitstatus methods. I think this makes the thread_info interface a bit nicer, because we now access the fields as: thread->stop_pc () rather than thread->suspend.stop_pc The stop_pc field being in the `suspend` structure is an implementation detail of thread_info that callers don't need to be aware of. For the backup / restore of the thread_suspend_state structure, add save_suspend_to and restore_suspend_from methods. You might wonder why `save_suspend_to`, as opposed to a simple getter like thread_suspend_state &suspend (); I want to make it clear that this is to be used only for backing up and restoring the suspend state, _not_ to access fields like: thread->suspend ()->stop_pc Adding some getters / setters allows adding some assertions. I find that this helps understand how things are supposed to work. Add: - When getting the pending status (pending_waitstatus method), ensure that there is a pending status. - When setting a pending status (set_pending_waitstatus method), ensure there is no pending status. There is one case I found where this wasn't true - in remote_target::process_initial_stop_replies - which needed adjustments to respect that contract. I think it's because process_initial_stop_replies is kind of (ab)using the thread_info::suspend::waitstatus to store some statuses temporarily, for its internal use (statuses it doesn't intent on leaving pending). process_initial_stop_replies pulls out stop replies received during the initial connection using target_wait. It always stores the received event in `evthread->suspend.waitstatus`. But it only sets waitstatus_pending_p, if it deems the event interesting enough to leave pending, to be reported to the core: if (ws.kind != TARGET_WAITKIND_STOPPED || ws.value.sig != GDB_SIGNAL_0) evthread->suspend.waitstatus_pending_p = 1; It later uses this flag a bit below, to choose which thread to make the "selected" one: if (selected == NULL && thread->suspend.waitstatus_pending_p) selected = thread; And ultimately that's used if the user-visible mode is all-stop, so that we print the stop for that interesting thread: /* In all-stop, we only print the status of one thread, and leave others with their status pending. */ if (!non_stop) { thread_info *thread = selected; if (thread == NULL) thread = lowest_stopped; if (thread == NULL) thread = first; print_one_stopped_thread (thread); } But in any case (all-stop or non-stop), print_one_stopped_thread needs to access the waitstatus value of these threads that don't have a pending waitstatus (those that had TARGET_WAITKIND_STOPPED + GDB_SIGNAL_0). This doesn't work with the assertions I've put. So, change the code to only set the thread's wait status if it is an interesting one that we are going to leave pending. If the thread stopped due to a non-interesting event (TARGET_WAITKIND_STOPPED + GDB_SIGNAL_0), don't store it. Adjust print_one_stopped_thread to understand that if a thread has no pending waitstatus, it's because it stopped with TARGET_WAITKIND_STOPPED + GDB_SIGNAL_0. The call to set_last_target_status also uses the pending waitstatus. However, given that the pending waitstatus for the thread may have been cleared in print_one_stopped_thread (and that there might not even be a pending waitstatus in the first place, as explained above), it is no longer possible to do it at this point. To fix that, move the call to set_last_target_status in print_one_stopped_thread. I think this will preserve the existing behavior, because set_last_target_status is currently using the current thread's wait status. And the current thread is the last one for which print_one_stopped_thread is called. So by calling set_last_target_status in print_one_stopped_thread, we'll get the same result. set_last_target_status will possibly be called multiple times, but only the last call will matter. It just means possibly more calls to set_last_target_status, but those are cheap. Change-Id: Iedab9653238eaf8231abcf0baa20145acc8b77a7
2021-03-05gdb/riscv: introduce bare metal core dump supportAndrew Burgess1-0/+126
This commit adds the ability for bare metal RISC-V target to generate core files from within GDB. The intended use case is that a user will connect to a remote bare metal target, debug up to some error condition, then generate a core file in the normal way using: (gdb) generate-core-file This core file can then be used to revisit the state of the remote target without having to reconnect to the remote target. The core file creation code is split between two new files. In elf-none-tdep.c is code for any architecture with the none ABI (i.e. bare metal) when the BFD library is built with ELF support. In riscv-none-tdep.c are the RISC-V specific parts. This is where the regset and regcache_map_entry structures are defined that control how registers are laid out in the core file. As this file could (in theory at least) be used for a non-ELF bare metal RISC-V target, the calls into elf-none-tdep.c are guarded with '#ifdef HAVE_ELF'. Currently for RISC-V only the x-regs and f-regs (if present) are written out. In future commits I plan to add support for writing out the RISC-V CSRs. The core dump format is based around generating an ELF containing sections for the writable regions of memory that a user could be using. Which regions are dumped rely on GDB's existing common core dumping code, GDB will attempt to figure out the stack and heap as well as copying out writable data sections as identified by the original ELF. Register information is added to the core dump using notes, just as it is for Linux of FreeBSD core dumps. The note types used consist of the 3 basic types you would expect in a OS based core dump, NT_PRPSINFO, NT_PRSTATUS, NT_FPREGSET. The layout of these notes differs slightly (due to field sizes) between RV32 and RV64. Below I describe the data layout for each note. In all cases, all padding fields should be set to zero. Note NT_PRPSINFO is optional. Its data layout is: struct prpsinfo32_t /* For RV32. */ { uint8_t padding[32]; char fname[16]; char psargs[80]; } struct prpsinfo64_t /* For RV64. */ { uint8_t padding[40]; char fname[16]; char psargs[80]; } Field 'fname' - null terminated string consisting of the basename of (up to the fist 15 characters of) the executable. Any additional space should be set to zero. If there's no executable name then this field can be set to all zero. Field 'psargs' - a null terminated string up to 80 characters in length. Any additional space should be filled with zero. This field contains the full executable path and any arguments passed to the executable. If there's nothing sensible to write in this field then fill it with zero. Note NT_PRSTATUS is required, its data layout is: struct prstatus32_t /* For RV32. */ { uint8_t padding_1[12]; uint16_t sig; uint8_t padding_2[10]; uint32_t thread_id; uint8_t padding_3[44]; uint32_t x_regs[32]; uint8_t padding_4[4]; } struct prstatus64_t /* For RV64. */ { uint8_t padding_1[12]; uint16_t sig; uint8_t padding_2[18]; uint32_t thread_id; uint8_t padding_3[76]; uint64_t x_regs[32]; uint8_t padding_4[4]; } Field 'sig' - the signal that stopped this thread. It's implementation defined what this field actually means. Within GDB this will be the signal number that the remote target reports as the stop reason for this thread. Field 'thread_is' - the thread id for this thread. It's implementation defined what this field actually means. Within GDB this will be thread thread-id that is assigned to each remote thread. Field 'x_regs' - at index 0 we store the program counter, and at indices 1 to 31 we store x-registers 1 to 31. x-register 0 is not stored, its value is always zero anyway. Note NT_FPREGSET is optional, its data layout is: fpregset32_t /* For targets with 'F' extension. */ { uint32_t f_regs[32]; uint32_t fcsr; } fpregset64_t /* For targets with 'D' extension . */ { uint64_t f_regs[32]; uint32_t fcsr; } Field 'f_regs' - stores f-registers 0 to 31. Field 'fcsr' - stores the fcsr CSR register, and is always 4-bytes. The rules for ordering the notes is the same as for Linux. The NT_PRSTATUS note must come before any other notes about additional register sets. And for multi-threaded targets all registers for a single thread should be grouped together. This is because only NT_PRSTATUS includes a thread-id, all additional register notes after a NT_PRSTATUS are assumed to belong to the same thread until a different NT_PRSTATUS is seen. gdb/ChangeLog: * Makefile.in (ALL_TARGET_OBS): Add riscv-none-tdep.o. (ALLDEPFILES): Add riscv-none-tdep.c. * configure: Regenerate. * configure.ac (CONFIG_OBS): Add elf-none-tdep.o when BFD has ELF support. * configure.tgt (riscv*-*-*): Include riscv-none-tdep.c. * elf-none-tdep.c: New file. * elf-none-tdep.h: New file. * riscv-none-tdep.c: New file.