incubator-nuttx/tools/nuttx-gdbinit

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############################################################################
# tools/nuttx-gdbinit
#
# Licensed to the Apache Software Foundation (ASF) under one or more
# contributor license agreements. See the NOTICE file distributed with
# this work for additional information regarding copyright ownership. The
# ASF licenses this file to you under the Apache License, Version 2.0 (the
# "License"); you may not use this file except in compliance with the
# License. You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.
#
############################################################################
# NOTE: you need to use gdb configured '--with-python'
# usage: gdb -ix=./tools/nuttx-gdbinit nuttx
# new commands: info_nxthreads, nxthread pid, nxcontinue, nxthread_all_bt
set $_current_tcb = 0x0
set $_target_examined = 0x0
define _examine_arch
python _target_frame = gdb.selected_frame()
python _target_arch = _target_frame.architecture()
python if (_target_arch.name() == 'armv7e-m') : \
gdb.execute("set $_target_arch = \"armv7e-m\"")
# TODO: qemu (need to distinguish cortex-m and cortex-a)
python if (_target_arch.name() == 'armv7') : \
gdb.execute("set $_target_arch = \"armv7e-m\"")
python if (_target_arch.name() == 'i386:x86-64') : \
gdb.execute("set $_target_arch = \"i386:x86-64\"")
# NOTE: we assume that sim has sim_bringup function
python if (type(gdb.lookup_global_symbol("sim_bringup")) is gdb.Symbol) : \
gdb.execute("set $_target_arch=\"sim:x86-64\"")
end
define _examine_target
if ($_target_examined == 0x0)
_examine_arch
python gdb.execute("set $_target_has_fpu = 0")
python if (type(gdb.lookup_global_symbol("fpuconfig")) is gdb.Symbol) : \
gdb.execute("set $_target_has_fpu = 1")
python gdb.execute("set $_target_has_smp = 0")
python if (type(gdb.lookup_global_symbol("g_assignedtasks")) is gdb.Symbol) : \
gdb.execute("set $_target_has_smp = 1")
set $_target_max_tasks = sizeof(g_pidhash) / sizeof(struct pidhash_s)
printf "target examined \n"
python print("_target_arch.name=" + _target_arch.name())
# NOTE: i386:x86-64 (qemu) does not work
#printf "$_target_arch : %s \n", $_target_arch
printf "$_target_has_fpu : %d \n", $_target_has_fpu
printf "$_target_has_smp : %d \n", $_target_has_smp
set $_target_examined = 1
end
end
define _print_thread
set $tcb = (struct tcb_s *)$arg0
if ($tcb == $_current_tcb)
printf "* "
else
printf " "
end
printf "%d Thread 0x%x (Name: %s, State: %s, Priority: %d) 0x%x in ", \
$tcb->pid, $tcb, $tcb->name, g_statenames[$tcb->task_state], $tcb->sched_priority, \
$tcb->xcp.regs[$_pc_reg_idx]
python _symbol = gdb.execute("info symbol $tcb->xcp.regs[$_pc_reg_idx]", to_string=True); \
print(_symbol.split()[0] + "()")
end
define _save_tcb
_examine_target
set $tcb = $arg0
if ($_streq($_target_arch, "armv7e-m") == 1)
if ($_target_has_fpu == 0)
_save_tcb_armv7e-m $tcb
else
_save_tcb_armv7e-mf $tcb
end
end
if ($_streq($_target_arch, "i386:x86-64") == 1)
_save_tcb_i386x86-64 $tcb
end
if ($_streq($_target_arch, "sim:x86-64") == 1)
_save_tcb_simx86-64 $tcb
end
end
define _save_current_tcb
_examine_target
if ($_current_tcb == 0)
if ($_target_has_smp == 0)
set $tcb = (struct tcb_s *)g_readytorun->head
_save_tcb $tcb
else
set $cpu = up_cpu_index()
set $tcb = (struct tcb_s *)g_assignedtasks[$cpu]->head
_save_tcb $tcb
end
printf "saved current_tcb (pid=%d) \n", $tcb->pid
set $_current_tcb = $tcb
end
end
define _switch_tcb
_examine_target
_save_current_tcb
# set the current frame to the newest before switching
python if (gdb.selected_frame() != gdb.newest_frame()) : \
gdb.newest_frame().select()
set $tcb = $arg0
if ($_streq($_target_arch, "armv7e-m") == 1)
if ($_target_has_fpu == 0)
_switch_tcb_armv7e-m $tcb
else
_switch_tcb_armv7e-mf $tcb
end
end
if ($_streq($_target_arch, "i386:x86-64") == 1)
_switch_tcb_i386x86-64 $tcb
end
if ($_streq($_target_arch, "sim:x86-64") == 1)
_switch_tcb_simx86-64 $tcb
end
# update _current_tcb
set $_current_tcb = $tcb
end
# see nuttx/arch/arm/include/armv7-m/irq_cmnvector.h
define _save_tcb_armv7e-m
set $tcb = (struct tcb_s *)$arg0
set $tcb.xcp.regs[0] = $sp
# TODO: basepri/primask
set $tcb.xcp.regs[2] = $r4
set $tcb.xcp.regs[3] = $r5
set $tcb.xcp.regs[4] = $r6
set $tcb.xcp.regs[5] = $r7
set $tcb.xcp.regs[6] = $r8
set $tcb.xcp.regs[7] = $r9
set $tcb.xcp.regs[8] = $r10
set $tcb.xcp.regs[9] = $r11
# TODO: EXC_RETURN (protected)
set $tcb.xcp.regs[11] = $r0
set $tcb.xcp.regs[12] = $r1
set $tcb.xcp.regs[13] = $r2
set $tcb.xcp.regs[14] = $r3
set $tcb.xcp.regs[15] = $r12
set $tcb.xcp.regs[16] = $lr
set $tcb.xcp.regs[17] = $pc
# TODO: xPSR
set $_pc_reg_idx = 17
end
define _switch_tcb_armv7e-m
set $tcb = (struct tcb_s *)$arg0
set $sp = $tcb.xcp.regs[0]
# TODO: basepri/primask
set $r4 = $tcb.xcp.regs[2]
set $r5 = $tcb.xcp.regs[3]
set $r6 = $tcb.xcp.regs[4]
set $r7 = $tcb.xcp.regs[5]
set $r8 = $tcb.xcp.regs[6]
set $r9 = $tcb.xcp.regs[7]
set $r10 = $tcb.xcp.regs[8]
set $r11 = $tcb.xcp.regs[9]
# TODO: EXC_RETURN (protected)
set $r0 = $tcb.xcp.regs[11]
set $r1 = $tcb.xcp.regs[12]
set $r2 = $tcb.xcp.regs[13]
set $r3 = $tcb.xcp.regs[14]
set $r12 = $tcb.xcp.regs[15]
set $lr = $tcb.xcp.regs[16]
set $pc = $tcb.xcp.regs[17]
# TODO: xPSR
end
# see nuttx/arch/arm/include/armv7-m/irq_cmnvector.h
define _save_tcb_armv7e-mf
set $tcb = (struct tcb_s *)$arg0
set $tcb.xcp.regs[0] = $sp
# TODO: basepri/primask
set $tcb.xcp.regs[2] = $r4
set $tcb.xcp.regs[3] = $r5
set $tcb.xcp.regs[4] = $r6
set $tcb.xcp.regs[5] = $r7
set $tcb.xcp.regs[6] = $r8
set $tcb.xcp.regs[7] = $r9
set $tcb.xcp.regs[8] = $r10
set $tcb.xcp.regs[9] = $r11
# TODO: EXC_RETURN (protected)
# TODO: FPU
set $tcb.xcp.regs[27] = $r0
set $tcb.xcp.regs[28] = $r1
set $tcb.xcp.regs[29] = $r2
set $tcb.xcp.regs[30] = $r3
set $tcb.xcp.regs[31] = $r12
set $tcb.xcp.regs[32] = $lr
set $tcb.xcp.regs[33] = $pc
# TODO: xPSR
set $_pc_reg_idx = 33
end
define _switch_tcb_armv7e-mf
set $tcb = (struct tcb_s *)$arg0
set $sp = $tcb.xcp.regs[0]
# TODO: basepri/primask
set $r4 = $tcb.xcp.regs[2]
set $r5 = $tcb.xcp.regs[3]
set $r6 = $tcb.xcp.regs[4]
set $r7 = $tcb.xcp.regs[5]
set $r8 = $tcb.xcp.regs[6]
set $r9 = $tcb.xcp.regs[7]
set $r10 = $tcb.xcp.regs[8]
set $r11 = $tcb.xcp.regs[9]
# TODO: EXC_RETURN (protected)
# TODO: FPU
set $r0 = $tcb.xcp.regs[27]
set $r1 = $tcb.xcp.regs[28]
set $r2 = $tcb.xcp.regs[29]
set $r3 = $tcb.xcp.regs[30]
set $r12 = $tcb.xcp.regs[31]
set $lr = $tcb.xcp.regs[32]
set $pc = $tcb.xcp.regs[33]
# TODO: xPSR
end
# see nuttx/arch/x86_64/include/intel64/irq.h
define _save_tcb_i386x86-64
set $tcb = (struct tcb_s *)$arg0
set $tcb.xcp.regs[6 + 64] = $rbx
set $tcb.xcp.regs[7 + 64] = $rbp
set $tcb.xcp.regs[10 + 64] = $r12
set $tcb.xcp.regs[11 + 64] = $r13
set $tcb.xcp.regs[12 + 64] = $r14
set $tcb.xcp.regs[13 + 64] = $r15
set $tcb.xcp.regs[21 + 64] = $rip
set $tcb.xcp.regs[24 + 64] = $rsp
set $_pc_reg_idx = (21 + 64)
end
define _switch_tcb_i386x86-64
set $tcb = (struct tcb_s *)$arg0
set $rbx = $tcb.xcp.regs[6 + 64]
set $rbp = $tcb.xcp.regs[7 + 64]
set $r12 = $tcb.xcp.regs[10 + 64]
set $r13 = $tcb.xcp.regs[11 + 64]
set $r14 = $tcb.xcp.regs[12 + 64]
set $r15 = $tcb.xcp.regs[13 + 64]
set $rip = $tcb.xcp.regs[21 + 64]
set $rsp = $tcb.xcp.regs[24 + 64]
end
# see nuttx/arch/sim/src/sim/up_internal.h
define _save_tcb_simx86-64
set $tcb = (struct tcb_s *)$arg0
set $tcb.xcp.regs[0] = $rbx
set $tcb.xcp.regs[1] = $rsp
set $tcb.xcp.regs[2] = $rbp
set $tcb.xcp.regs[3] = $r12
set $tcb.xcp.regs[4] = $r13
set $tcb.xcp.regs[5] = $r14
set $tcb.xcp.regs[6] = $r15
set $tcb.xcp.regs[7] = $rip
set $_pc_reg_idx = 7
end
define _switch_tcb_simx86-64
set $tcb = (struct tcb_s *)$arg0
set $rbx = $tcb.xcp.regs[0]
set $rsp = $tcb.xcp.regs[1]
set $rbp = $tcb.xcp.regs[2]
set $r12 = $tcb.xcp.regs[3]
set $r13 = $tcb.xcp.regs[4]
set $r14 = $tcb.xcp.regs[5]
set $r15 = $tcb.xcp.regs[6]
set $rip = $tcb.xcp.regs[7]
end
define nxthread
_examine_target
_save_current_tcb
set $hash = ($arg0 & ($_target_max_tasks - 1))
set $tcb = g_pidhash[$hash].tcb
if ($tcb != 0x0)
_print_thread $tcb
if ($argc == 1)
_switch_tcb $tcb
end
if ($argc == 2)
if ($arg1 == 1)
_switch_tcb $tcb
where
end
end
end
end
define nxthread_all_bt
_save_current_tcb
set $i = 0
while ($i < $_target_max_tasks)
# 1: backtrace
nxthread $i 1
set $i = $i + 1
end
end
define info_nxthreads
_save_current_tcb
set $i = 0
while ($i < $_target_max_tasks)
# dummy : 0 0
nxthread $i 0 0
set $i = $i + 1
end
end
define nxcontinue
printf "nxcontinue \n"
# TODO: SMP
set $tcb = g_readytorun->head
_switch_tcb $tcb
set $_current_tcb = 0x0
continue
end