thermosphere: some gdb/debug refactor

This commit is contained in:
TuxSH 2020-01-23 02:15:03 +00:00
parent c66b70b1a2
commit e723415e44
6 changed files with 164 additions and 496 deletions

View file

@ -135,6 +135,23 @@ static inline void writeFrameRegisterZ(ExceptionStackFrame *frame, u32 id, u64 v
}
}
static inline uintptr_t exceptionGetSp(const ExceptionStackFrame *frame)
{
// Note: the return value is more or less meaningless if we took an exception from A32...
// We try our best to reflect which privilege level the exception was took from, nonetheless
bool spEl0;
u64 m = frame->spsr_el2 & 0xF;
if (spsrIsA32(frame->spsr_el2)) {
spEl0 = m == 0;
} else {
u64 el = m >> 2;
spEl0 = el == 2 || el == 0 || (m & 1) == 0; // note: frame->sp_el2 is aliased to frame->sp_el0
}
return spEl0 ? frame->sp_el0 : frame->sp_el1;
}
bool spsrEvaluateConditionCode(u64 spsr, u32 conditionCode);
void skipFaultingInstruction(ExceptionStackFrame *frame, u32 size);
void dumpStackFrame(const ExceptionStackFrame *frame, bool sameEl);

View file

@ -5,7 +5,7 @@
* SPDX-License-Identifier: (MIT OR GPL-2.0-or-later)
*/
#if 1
#if 0
#include "gdb.h"
#include "gdb/net.h"
#include "gdb/server.h"

View file

@ -53,7 +53,8 @@ enum {
GDB_FLAG_CONTINUING = BIT(4),
GDB_FLAG_TERMINATE = BIT(5),
GDB_FLAG_ATTACHED_AT_START = BIT(6),
GDB_FLAG_CREATED = BIT(7),
GDB_FLAG_NONSTOP = BIT(7),
//GDB_FLAG_CREATED = BIT(7),
};
typedef enum GDBState
@ -106,5 +107,10 @@ void GDB_FinalizeContext(GDBContext *ctx);
void GDB_Attach(GDBContext *ctx);
void GDB_Detach(GDBContext *ctx);
static inline bool GDB_IsAttached(GDBContext *ctx)
{
return ctx->state == GDB_STATE_ATTACHED;
}
GDB_DECLARE_HANDLER(Unsupported);
GDB_DECLARE_HANDLER(EnableExtendedMode);

View file

@ -6,145 +6,23 @@
*/
#define _GNU_SOURCE // for strchrnul
#include "gdb/debug.h"
#include "gdb/server.h"
#include "gdb/verbose.h"
#include "gdb/net.h"
#include "gdb/thread.h"
#include "gdb/mem.h"
#include "gdb/hio.h"
#include "gdb/watchpoints.h"
#include "fmt.h"
#include <stdio.h>
#include <string.h>
#include "../exceptions.h"
#include "../watchpoints.h"
#include "debug.h"
#include "net.h"
#include "server.h"
#include "verbose.h"
#include "thread.h"
#include "mem.h"
#include "hio.h"
#include "watchpoints.h"
#include <stdlib.h>
#include <signal.h>
#include "pmdbgext.h"
static void GDB_DetachImmediatelyExtended(GDBContext *ctx)
{
// detach immediately
recursiveSpinlockLock(&ctx->lock);
ctx->state = GDB_STATE_DETACHING;
svcClearEvent(ctx->processAttachedEvent);
ctx->eventToWaitFor = ctx->processAttachedEvent;
svcClearEvent(ctx->parent->statusUpdateReceived);
svcSignalEvent(ctx->parent->statusUpdated);
recursiveSpinlockUnlock(&ctx->lock);
svcWaitSynchronization(ctx->parent->statusUpdateReceived, -1LL);
recursiveSpinlockLock(&ctx->lock);
GDB_DetachFromProcess(ctx);
ctx->flags &= GDB_FLAG_RESTART_MASK;
recursiveSpinlockUnlock(&ctx->lock);
}
GDB_DECLARE_VERBOSE_HANDLER(Run)
{
// Note: only titleId [mediaType [launchFlags]] is supported, and the launched title shouldn't rely on APT
// all 3 parameters should be hex-encoded.
// Extended remote only
if (!(ctx->flags & GDB_FLAG_EXTENDED_REMOTE))
return GDB_ReplyErrno(ctx, EPERM);
u64 titleId;
u32 mediaType = MEDIATYPE_NAND;
u32 launchFlags = PMLAUNCHFLAG_LOAD_DEPENDENCIES;
char args[3][32] = {{0}};
char *pos = ctx->commandData;
for (u32 i = 0; i < 3 && *pos != 0; i++)
{
char *pos2 = strchrnul(pos, ';');
u32 dist = pos2 - pos;
if (dist < 2)
return GDB_ReplyErrno(ctx, EILSEQ);
if (dist % 2 == 1)
return GDB_ReplyErrno(ctx, EILSEQ);
if (dist / 2 > 16) // buffer overflow check
return GDB_ReplyErrno(ctx, EINVAL);
u32 n = GDB_DecodeHex(args[i], pos, dist / 2);
if (n == 0)
return GDB_ReplyErrno(ctx, EILSEQ);
pos = *pos2 == 0 ? pos2 : pos2 + 1;
}
if (args[0][0] == 0)
return GDB_ReplyErrno(ctx, EINVAL); // first arg mandatory
if (GDB_ParseIntegerList64(&titleId, args[0], 1, 0, 0, 16, false) == NULL)
return GDB_ReplyErrno(ctx, EINVAL);
if (args[1][0] != 0 && (GDB_ParseIntegerList(&mediaType, args[1], 1, 0, 0, 16, true) == NULL || mediaType >= 0x100))
return GDB_ReplyErrno(ctx, EINVAL);
if (args[2][0] != 0 && GDB_ParseIntegerList(&launchFlags, args[2], 1, 0, 0, 16, true) == NULL)
return GDB_ReplyErrno(ctx, EINVAL);
FS_ProgramInfo progInfo;
progInfo.mediaType = (FS_MediaType)mediaType;
progInfo.programId = titleId;
recursiveSpinlockLock(&ctx->lock);
Result r = GDB_CreateProcess(ctx, &progInfo, launchFlags);
if (R_FAILED(r))
{
if(ctx->debug != 0)
GDB_DetachImmediatelyExtended(ctx);
recursiveSpinlockUnlock(&ctx->lock);
return GDB_ReplyErrno(ctx, EPERM);
}
recursiveSpinlockUnlock(&ctx->lock);
return R_SUCCEEDED(r) ? GDB_SendStopReply(ctx, &ctx->latestDebugEvent) : GDB_ReplyErrno(ctx, EPERM);
}
GDB_DECLARE_HANDLER(Restart)
{
// Note: removed from gdb
// Extended remote only & process must have been created
if (!(ctx->flags & GDB_FLAG_EXTENDED_REMOTE) || !(ctx->flags & GDB_FLAG_CREATED))
return GDB_ReplyErrno(ctx, EPERM);
FS_ProgramInfo progInfo = ctx->launchedProgramInfo;
u32 launchFlags = ctx->launchedProgramLaunchFlags;
ctx->flags |= GDB_FLAG_TERMINATE;
if (ctx->flags & GDB_FLAG_EXTENDED_REMOTE)
GDB_DetachImmediatelyExtended(ctx);
recursiveSpinlockLock(&ctx->lock);
Result r = GDB_CreateProcess(ctx, &progInfo, launchFlags);
if (R_FAILED(r) && ctx->debug != 0)
GDB_DetachImmediatelyExtended(ctx);
recursiveSpinlockUnlock(&ctx->lock);
return 0;
}
GDB_DECLARE_VERBOSE_HANDLER(Attach)
{
// Extended remote only
if (!(ctx->flags & GDB_FLAG_EXTENDED_REMOTE))
return GDB_ReplyErrno(ctx, EPERM);
u32 pid;
if(GDB_ParseHexIntegerList(&pid, ctx->commandData, 1, 0) == NULL)
return GDB_ReplyErrno(ctx, EILSEQ);
recursiveSpinlockLock(&ctx->lock);
ctx->pid = pid;
Result r = GDB_AttachToProcess(ctx);
if(R_FAILED(r))
GDB_DetachImmediatelyExtended(ctx);
recursiveSpinlockUnlock(&ctx->lock);
return R_SUCCEEDED(r) ? GDB_SendStopReply(ctx, &ctx->latestDebugEvent) : GDB_ReplyErrno(ctx, EPERM);
}
/*
Since we can't select particular threads to continue (and that's uncompliant behavior):
@ -155,8 +33,6 @@ GDB_DECLARE_VERBOSE_HANDLER(Attach)
GDB_DECLARE_HANDLER(Detach)
{
ctx->state = GDB_STATE_DETACHING;
if (ctx->flags & GDB_FLAG_EXTENDED_REMOTE)
GDB_DetachImmediatelyExtended(ctx);
return GDB_ReplyOk(ctx);
}
@ -164,14 +40,13 @@ GDB_DECLARE_HANDLER(Kill)
{
ctx->state = GDB_STATE_DETACHING;
ctx->flags |= GDB_FLAG_TERMINATE;
if (ctx->flags & GDB_FLAG_EXTENDED_REMOTE)
GDB_DetachImmediatelyExtended(ctx);
return 0;
}
GDB_DECLARE_HANDLER(Break)
{
// TODO
if(!(ctx->flags & GDB_FLAG_CONTINUING)) // Is this ever reached?
return GDB_SendPacket(ctx, "S02", 3);
else
@ -190,6 +65,7 @@ void GDB_ContinueExecution(GDBContext *ctx)
GDB_DECLARE_HANDLER(Continue)
{
// TODO
char *addrStart = NULL;
u32 addr = 0;
@ -232,6 +108,7 @@ GDB_DECLARE_HANDLER(Continue)
GDB_DECLARE_VERBOSE_HANDLER(Continue)
{
// TODO
char *pos = ctx->commandData;
bool currentThreadFound = false;
while(pos != NULL && *pos != 0 && !currentThreadFound)
@ -273,388 +150,137 @@ GDB_DECLARE_HANDLER(GetStopReason)
return GDB_SendPacket(ctx, "W00", 3);
} else if (ctx->processEnded && !ctx->processExited) {
return GDB_SendPacket(ctx, "X0f", 3);
} else if (ctx->debug == 0) {
} else if (!GDB_IsAttached(ctx)) {
return GDB_SendPacket(ctx, "W00", 3);
} else {
return GDB_SendStopReply(ctx, &ctx->latestDebugEvent);
// TODO //return GDB_SendStopReply(ctx, &ctx->latestDebugEvent);
}
}
static int GDB_ParseCommonThreadInfo(char *out, GDBContext *ctx, int sig)
static int GDB_ParseExceptionFrame(char *out, const DebugEventInfo *info, int sig)
{
u32 threadId = ctx->currentThreadId;
ThreadContext regs;
s64 dummy;
u32 core;
Result r = svcGetDebugThreadContext(&regs, ctx->debug, threadId, THREADCONTEXT_CONTROL_ALL);
int n = sprintf(out, "T%02xthread:%lx;", sig, threadId);
u32 coreId = info->coreId;
ExceptionStackFrame *frame = info->frame;
if(R_FAILED(r))
return n;
int n = sprintf(out, "T%02xthread:%lx;core:%lx;", sig, 1 + coreId, coreId);
r = svcGetDebugThreadParam(&dummy, &core, ctx->debug, ctx->currentThreadId, DBGTHREAD_PARAMETER_CPU_CREATOR); // Creator = "first ran, and running the thread"
if(R_SUCCEEDED(r))
n += sprintf(out + n, "core:%lx;", core);
for(u32 i = 0; i <= 12; i++)
n += sprintf(out + n, "%lx:%08lx;", i, __builtin_bswap32(regs.cpu_registers.r[i]));
n += sprintf(out + n, "d:%08lx;e:%08lx;f:%08lx;19:%08lx;",
__builtin_bswap32(regs.cpu_registers.sp), __builtin_bswap32(regs.cpu_registers.lr), __builtin_bswap32(regs.cpu_registers.pc),
__builtin_bswap32(regs.cpu_registers.cpsr));
for(u32 i = 0; i < 16; i++)
{
u64 val;
memcpy(&val, &regs.fpu_registers.d[i], 8);
n += sprintf(out + n, "%lx:%016llx;", 26 + i, __builtin_bswap64(val));
// Dump the GPRs & sp & pc & cpsr (cpsr is 32-bit in the xml desc)
// For performance reasons, we don't include the FPU registers here
for (u32 i = 0; i < 31; i++) {
n += sprintf(out + n, "%x:%016lx;", i, __builtin_bswap64(readFrameRegister(frame, i)));
}
n += sprintf(out + n, "2a:%08lx;2b:%08lx;", __builtin_bswap32(regs.fpu_registers.fpscr), __builtin_bswap32(regs.fpu_registers.fpexc));
n += sprintf(
out + n,
"1f:%016lx;20:%016lx;21:%08x",
__builtin_bswap64(exceptionGetSp(frame)),
__builitin_bswap32((u32)frame->spsr_el2)
);
return n;
}
void GDB_PreprocessDebugEvent(GDBContext *ctx, DebugEventInfo *info)
{
switch(info->type)
{
case DBGEVENT_ATTACH_PROCESS:
{
ctx->pid = info->attach_process.process_id;
break;
}
case DBGEVENT_ATTACH_THREAD:
{
if(ctx->nbThreads == MAX_DEBUG_THREAD)
svcBreak(USERBREAK_ASSERT);
else
{
++ctx->totalNbCreatedThreads;
ctx->threadInfos[ctx->nbThreads].id = info->thread_id;
ctx->threadInfos[ctx->nbThreads++].tls = info->attach_thread.thread_local_storage;
}
break;
}
case DBGEVENT_EXIT_THREAD:
{
u32 i;
for(i = 0; i < ctx->nbThreads && ctx->threadInfos[i].id != info->thread_id; i++);
if(i == ctx->nbThreads || ctx->threadInfos[i].id != info->thread_id)
svcBreak(USERBREAK_ASSERT);
else
{
for(u32 j = i; j < ctx->nbThreads - 1; j++)
memcpy(ctx->threadInfos + j, ctx->threadInfos + j + 1, sizeof(ThreadInfo));
memset(ctx->threadInfos + --ctx->nbThreads, 0, sizeof(ThreadInfo));
}
break;
}
case DBGEVENT_EXIT_PROCESS:
{
ctx->processEnded = true;
ctx->processExited = info->exit_process.reason == EXITPROCESS_EVENT_EXIT;
break;
}
case DBGEVENT_OUTPUT_STRING:
{
if(info->output_string.string_addr >= 0xFFFFFFFE)
{
u32 sz = info->output_string.string_size, addr = info->output_string.string_addr, threadId = info->thread_id;
memset(info, 0, sizeof(DebugEventInfo));
info->type = (addr == 0xFFFFFFFF) ? DBGEVENT_SYSCALL_OUT : DBGEVENT_SYSCALL_IN;
info->thread_id = threadId;
info->flags = 1;
info->syscall.syscall = sz;
}
else if (info->output_string.string_size == 0)
GDB_FetchPackedHioRequest(ctx, info->output_string.string_addr);
break;
}
case DBGEVENT_EXCEPTION:
{
switch(info->exception.type)
{
case EXCEVENT_UNDEFINED_INSTRUCTION:
{
// kernel bugfix for thumb mode
ThreadContext regs;
Result r = svcGetDebugThreadContext(&regs, ctx->debug, info->thread_id, THREADCONTEXT_CONTROL_CPU_SPRS);
if(R_SUCCEEDED(r) && (regs.cpu_registers.cpsr & 0x20) != 0)
{
regs.cpu_registers.pc += 2;
r = svcSetDebugThreadContext(ctx->debug, info->thread_id, &regs, THREADCONTEXT_CONTROL_CPU_SPRS);
}
break;
}
default:
break;
}
}
default:
break;
}
}
int GDB_SendStopReply(GDBContext *ctx, const DebugEventInfo *info)
{
char buffer[GDB_BUF_LEN + 1];
int n;
switch(info->type)
{
case DBGEVENT_ATTACH_PROCESS:
break; // Dismissed
buffer[0] = 0;
case DBGEVENT_ATTACH_THREAD:
{
if((ctx->flags & GDB_FLAG_ATTACHED_AT_START) && ctx->totalNbCreatedThreads == 1)
{
// Main thread created
ctx->currentThreadId = info->thread_id;
GDB_ParseCommonThreadInfo(buffer, ctx, SIGINT);
return GDB_SendFormattedPacket(ctx, "%s", buffer);
}
else if(info->attach_thread.creator_thread_id == 0 || !ctx->catchThreadEvents)
break; // Dismissed
else
{
ctx->currentThreadId = info->thread_id;
return GDB_SendPacket(ctx, "T05create:;", 10);
}
switch(info->type) {
case DBGEVENT_DEBUGGER_BREAK: {
strcpy(buffer, "S02");
}
case DBGEVENT_EXIT_THREAD:
{
if(ctx->catchThreadEvents && info->exit_thread.reason < EXITTHREAD_EVENT_EXIT_PROCESS)
{
// no signal, SIGTERM, SIGQUIT (process exited), SIGTERM (process terminated)
static int threadExitRepliesSigs[] = { 0, SIGTERM, SIGQUIT, SIGTERM };
return GDB_SendFormattedPacket(ctx, "w%02x;%lx", threadExitRepliesSigs[(u32)info->exit_thread.reason], info->thread_id);
case DBGEVENT_CORE_ON: {
if (ctx->catchThreadEvents) {
ctx->currentThreadId = info->coreId + 1; // FIXME?
strcpy(buffer, "T05create:;");
}
break;
}
case DBGEVENT_EXIT_PROCESS:
{
case DBGEVENT_CORE_OFF: {
if(ctx->catchThreadEvents) {
sprintf(buffer, "w0;%x", info->coreId + 1);
}
break;
}
case DBGEVENT_EXIT: {
// exited (no error / unhandled exception), SIGTERM (process terminated) * 2
static const char *processExitReplies[] = { "W00", "X0f", "X0f" };
return GDB_SendPacket(ctx, processExitReplies[(u32)info->exit_process.reason], 3);
}
case DBGEVENT_EXCEPTION:
{
ExceptionEvent exc = info->exception;
switch(exc.type)
{
case EXCEVENT_UNDEFINED_INSTRUCTION:
case EXCEVENT_PREFETCH_ABORT: // doesn't include hardware breakpoints
case EXCEVENT_DATA_ABORT: // doesn't include hardware watchpoints
case EXCEVENT_UNALIGNED_DATA_ACCESS:
case EXCEVENT_UNDEFINED_SYSCALL:
{
u32 signum = exc.type == EXCEVENT_UNDEFINED_INSTRUCTION ? SIGILL :
(exc.type == EXCEVENT_UNDEFINED_SYSCALL ? SIGSYS : SIGSEGV);
ctx->currentThreadId = info->thread_id;
GDB_ParseCommonThreadInfo(buffer, ctx, signum);
return GDB_SendFormattedPacket(ctx, "%s", buffer);
}
case EXCEVENT_ATTACH_BREAK:
return GDB_SendPacket(ctx, "S00", 3);
case EXCEVENT_STOP_POINT:
{
ctx->currentThreadId = info->thread_id;
switch(exc.stop_point.type)
{
case STOPPOINT_SVC_FF:
{
GDB_ParseCommonThreadInfo(buffer, ctx, SIGTRAP);
return GDB_SendFormattedPacket(ctx, "%sswbreak:;", buffer);
break;
}
case STOPPOINT_BREAKPOINT:
{
// /!\ Not actually implemented (and will never be)
GDB_ParseCommonThreadInfo(buffer, ctx, SIGTRAP);
return GDB_SendFormattedPacket(ctx, "%shwbreak:;", buffer);
break;
}
case STOPPOINT_WATCHPOINT:
{
const char *kinds[] = { "", "r", "", "a" };
WatchpointKind kind = GDB_GetWatchpointKind(ctx, exc.stop_point.fault_information);
if(kind == WATCHPOINT_DISABLED)
GDB_SendDebugString(ctx, "Warning: unknown watchpoint encountered!\n");
GDB_ParseCommonThreadInfo(buffer, ctx, SIGTRAP);
return GDB_SendFormattedPacket(ctx, "%s%swatch:%08lx;", buffer, kinds[(u32)kind], exc.stop_point.fault_information);
break;
}
default:
break;
}
break;
}
case EXCEVENT_USER_BREAK:
{
ctx->currentThreadId = info->thread_id;
GDB_ParseCommonThreadInfo(buffer, ctx, SIGINT);
return GDB_SendFormattedPacket(ctx, "%s", buffer);
//TODO
}
case EXCEVENT_DEBUGGER_BREAK:
{
u32 threadIds[4];
u32 nbThreads = 0;
for(u32 i = 0; i < 4; i++)
{
if(exc.debugger_break.thread_ids[i] > 0)
threadIds[nbThreads++] = (u32)exc.debugger_break.thread_ids[i];
}
u32 currentThreadId = nbThreads > 0 ? GDB_GetCurrentThreadFromList(ctx, threadIds, nbThreads) : GDB_GetCurrentThread(ctx);
s64 dummy;
u32 mask = 0;
svcGetDebugThreadParam(&dummy, &mask, ctx->debug, currentThreadId, DBGTHREAD_PARAMETER_SCHEDULING_MASK_LOW);
if(mask == 1)
{
ctx->currentThreadId = currentThreadId;
GDB_ParseCommonThreadInfo(buffer, ctx, SIGINT);
return GDB_SendFormattedPacket(ctx, "%s", buffer);
}
else
return GDB_SendPacket(ctx, "S02", 3);
}
default:
break;
}
static const char *processExitReplies[] = { "W00", "X0f" };
strcpy(buffer, processExitReplies[ctx->processExited ? 0 : 1]);
break;
}
case DBGEVENT_SYSCALL_IN:
{
ctx->currentThreadId = info->thread_id;
GDB_ParseCommonThreadInfo(buffer, ctx, SIGTRAP);
return GDB_SendFormattedPacket(ctx, "%ssyscall_entry:%02x;", buffer, info->syscall.syscall);
}
case DBGEVENT_EXCEPTION: {
ExceptionClass ec = info->frame->esr_el2.ec;
ctx->currentThreadId = info->coreId + 1; // FIXME?
case DBGEVENT_SYSCALL_OUT:
{
ctx->currentThreadId = info->thread_id;
GDB_ParseCommonThreadInfo(buffer, ctx, SIGTRAP);
return GDB_SendFormattedPacket(ctx, "%ssyscall_return:%02x;", buffer, info->syscall.syscall);
}
case DBGEVENT_OUTPUT_STRING:
{
// Regular "output string"
if (!GDB_IsHioInProgress(ctx))
{
u32 addr = info->output_string.string_addr;
u32 remaining = info->output_string.string_size;
u32 sent = 0;
int total = 0;
while(remaining > 0)
{
u32 pending = (GDB_BUF_LEN - 1) / 2;
pending = pending < remaining ? pending : remaining;
int res = GDB_SendMemory(ctx, "O", 1, addr + sent, pending);
if(res < 0 || (u32) res != 5 + 2 * pending)
break;
sent += pending;
remaining -= pending;
total += res;
// Aside from stage 2 translation faults and other pre-handled exceptions,
// the only notable exceptions we get are stop point/single step events from the debugee (basically classes 0x3x)
switch(ec) {
case Exception_BreakpointLowerEl: {
n = GDB_ParseExceptionFrame(buffer, ctx, SIGTRAP);
strcat(buffer + n, "hwbreak:;");
}
return total;
}
else // HIO
{
return GDB_SendCurrentHioRequest(ctx);
}
case Exception_WatchpointLowerEl: {
static const char *kinds[] = { "", "r", "", "a" };
n = GDB_ParseExceptionFrame(buffer, ctx, SIGTRAP);
u32 kind = 3; // TODO: retrieve the actual wp direction (if it's a bidirectional wp or not)
sprintf(buffer + n, "%swatch:%016lx;", kinds[kind], info->frame->far_el2);
}
}
default:
// Note: we don't really support 32-bit sw breakpoints, we'll still report them
// if the guest has inserted some of them manually...
case Exception_SoftwareBreakpointA64:
case Exception_SoftwareBreakpointA32: {
n = GDB_ParseExceptionFrame(buffer, ctx, SIGTRAP);
strcat(buffer + n, "swbreak:;");
}
default: {
DEBUG("GDB: oops, unhandled exception for core id %u\n", info->coreId);
break;
}
}
break;
}
case DBGEVENT_OUTPUT_STRING: {
uintptr_t addr = info->outputString.address;
size_t remaining = info->outputString.size;
size_t sent = 0;
size_t total = 0;
while (remaining > 0) {
u32 pending = (GDB_BUF_LEN - 1) / 2;
pending = pending < remaining ? pending : remaining;
int res = GDB_SendMemory(ctx, "O", 1, addr + sent, pending);
if(res < 0 || res != 5 + 2 * pending)
break;
sent += pending;
remaining -= pending;
total += res;
}
return (int)total;
}
// TODO: HIO
default: {
DEBUG("GDB: unknown exception type %u, core id %u\n", (u32)info->type, info->coreId);
break;
}
}
return 0;
}
/*
Only 1 blocking event can be enqueued at a time: they preempt all the other threads.
The only "non-blocking" event that is implemented is EXIT PROCESS (but it's a very special case)
*/
int GDB_HandleDebugEvents(GDBContext *ctx)
{
if(ctx->state == GDB_STATE_DETACHING)
return -1;
DebugEventInfo info;
Result rdbg = svcGetProcessDebugEvent(&info, ctx->debug);
if(R_FAILED(rdbg))
return -1;
GDB_PreprocessDebugEvent(ctx, &info);
int ret = 0;
bool continueAutomatically = (info.type == DBGEVENT_OUTPUT_STRING && !GDB_IsHioInProgress(ctx)) ||
info.type == DBGEVENT_ATTACH_PROCESS ||
(info.type == DBGEVENT_ATTACH_THREAD && (info.attach_thread.creator_thread_id == 0 || !ctx->catchThreadEvents)) ||
(info.type == DBGEVENT_EXIT_THREAD && (info.exit_thread.reason >= EXITTHREAD_EVENT_EXIT_PROCESS || !ctx->catchThreadEvents)) ||
info.type == DBGEVENT_EXIT_PROCESS || !(info.flags & 1);
if(continueAutomatically)
{
Result r = 0;
ret = GDB_SendStopReply(ctx, &info);
if(info.flags & 1)
r = svcContinueDebugEvent(ctx->debug, ctx->continueFlags);
if(r == (Result)0xD8A02008) // process ended
return -2;
return -ret - 3;
}
else
{
int ret;
if(ctx->processEnded)
return -2;
ctx->latestDebugEvent = info;
ret = GDB_SendStopReply(ctx, &info);
ctx->flags &= ~GDB_FLAG_CONTINUING;
return ret;
if (buffer[0] == 0) {
return 0;
} else {
return GDB_SendPacket(ctx, buffer, strlen(buffer));
}
}

View file

@ -7,11 +7,32 @@
#pragma once
#include "gdb.h"
#include "../gdb.h"
#include "../core_ctx.h"
typedef enum DebugEventType {
DBGEVENT_DEBUGGER_BREAK = 0,
DBGEVENT_EXCEPTION,
DBGEVENT_CORE_ON,
DBGEVENT_CORE_OFF,
DBGEVENT_EXIT,
DBGEVENT_OUTPUT_STRING,
} DebugEventType;
typedef struct OutputStringDebugEventInfo {
uintptr_t address;
size_t size;
} OutputStringDebugEventInfo;
typedef struct DebugEventInfo {
DebugEventType type;
u32 coreId;
ExceptionStackFrame *frame;
union {
OutputStringDebugEventInfo outputString;
};
} DebugEventInfo;
GDB_DECLARE_VERBOSE_HANDLER(Run);
GDB_DECLARE_HANDLER(Restart);
GDB_DECLARE_VERBOSE_HANDLER(Attach);
GDB_DECLARE_HANDLER(Detach);
GDB_DECLARE_HANDLER(Kill);
GDB_DECLARE_HANDLER(Break);
@ -20,7 +41,6 @@ GDB_DECLARE_VERBOSE_HANDLER(Continue);
GDB_DECLARE_HANDLER(GetStopReason);
void GDB_ContinueExecution(GDBContext *ctx);
void GDB_PreprocessDebugEvent(GDBContext *ctx, DebugEventInfo *info);
int GDB_SendStopReply(GDBContext *ctx, const DebugEventInfo *info);
int GDB_HandleDebugEvents(GDBContext *ctx);
void GDB_BreakProcessAndSinkDebugEvents(GDBContext *ctx, DebugFlags flags);

View file

@ -206,7 +206,6 @@ void handleIrqException(ExceptionStackFrame *frame, bool isLowerEl, bool isA32)
u32 irqId = iar & 0x3FF;
u32 srcCore = (iar >> 10) & 7;
frame->esr_el2.ec = Exception_Uncategorized;
DEBUG("EL2 [core %d]: Received irq %x\n", (int)currentCoreCtx->coreId, irqId);
if (irqId == GIC_IRQID_SPURIOUS) {