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qemu/target/riscv/gdbstub.c
Bin Meng 0bc71ee0b7
target/riscv: gdbstub: Check priv spec version before reporting CSR 
The gdbstub CSR XML is dynamically generated according to the result
of the CSR predicate() result. This has been working fine until
commit 7100fe6c2441 ("target/riscv: Enable privileged spec version 1.12")
introduced the privilege spec version check in riscv_csrrw_check().

When debugging the 'sifive_u' machine whose priv spec is at 1.10,
gdbstub reports priv spec 1.12 CSRs like menvcfg in the XML, hence
we see "remote failure reply 'E14'" message when examining all CSRs
via "info register system" from gdb.

Add the priv spec version check in the CSR XML generation logic to
fix this issue.

Fixes: 7100fe6c2441 ("target/riscv: Enable privileged spec version 1.12")
Signed-off-by: Bin Meng <bmeng@tinylab.org>
Reviewed-by: Weiwei Li <liweiwei@iscas.ac.cn>
Reviewed-by: LIU Zhiwei <zhiwei_liu@linux.alibaba.com>
Message-ID: <20230228104035.1879882-2-bmeng@tinylab.org>
Signed-off-by: Palmer Dabbelt <palmer@rivosinc.com>
2023-03-01 16:40:10 -08:00

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/*
* RISC-V GDB Server Stub
*
* Copyright (c) 2016-2017 Sagar Karandikar, sagark@eecs.berkeley.edu
*
* This program is free software; you can redistribute it and/or modify it
* under the terms and conditions of the GNU General Public License,
* version 2 or later, as published by the Free Software Foundation.
*
* This program is distributed in the hope it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include "qemu/osdep.h"
#include "exec/gdbstub.h"
#include "cpu.h"
struct TypeSize {
const char *gdb_type;
const char *id;
int size;
const char suffix;
};
static const struct TypeSize vec_lanes[] = {
/* quads */
{ "uint128", "quads", 128, 'q' },
/* 64 bit */
{ "uint64", "longs", 64, 'l' },
/* 32 bit */
{ "uint32", "words", 32, 'w' },
/* 16 bit */
{ "uint16", "shorts", 16, 's' },
/*
* TODO: currently there is no reliable way of telling
* if the remote gdb actually understands ieee_half so
* we don't expose it in the target description for now.
* { "ieee_half", 16, 'h', 'f' },
*/
/* bytes */
{ "uint8", "bytes", 8, 'b' },
};
int riscv_cpu_gdb_read_register(CPUState *cs, GByteArray *mem_buf, int n)
{
RISCVCPU *cpu = RISCV_CPU(cs);
CPURISCVState *env = &cpu->env;
target_ulong tmp;
if (n < 32) {
tmp = env->gpr[n];
} else if (n == 32) {
tmp = env->pc;
} else {
return 0;
}
switch (env->misa_mxl_max) {
case MXL_RV32:
return gdb_get_reg32(mem_buf, tmp);
case MXL_RV64:
case MXL_RV128:
return gdb_get_reg64(mem_buf, tmp);
default:
g_assert_not_reached();
}
return 0;
}
int riscv_cpu_gdb_write_register(CPUState *cs, uint8_t *mem_buf, int n)
{
RISCVCPU *cpu = RISCV_CPU(cs);
CPURISCVState *env = &cpu->env;
int length = 0;
target_ulong tmp;
switch (env->misa_mxl_max) {
case MXL_RV32:
tmp = (int32_t)ldl_p(mem_buf);
length = 4;
break;
case MXL_RV64:
case MXL_RV128:
if (env->xl < MXL_RV64) {
tmp = (int32_t)ldq_p(mem_buf);
} else {
tmp = ldq_p(mem_buf);
}
length = 8;
break;
default:
g_assert_not_reached();
}
if (n > 0 && n < 32) {
env->gpr[n] = tmp;
} else if (n == 32) {
env->pc = tmp;
}
return length;
}
static int riscv_gdb_get_fpu(CPURISCVState *env, GByteArray *buf, int n)
{
if (n < 32) {
if (env->misa_ext & RVD) {
return gdb_get_reg64(buf, env->fpr[n]);
}
if (env->misa_ext & RVF) {
return gdb_get_reg32(buf, env->fpr[n]);
}
}
return 0;
}
static int riscv_gdb_set_fpu(CPURISCVState *env, uint8_t *mem_buf, int n)
{
if (n < 32) {
env->fpr[n] = ldq_p(mem_buf); /* always 64-bit */
return sizeof(uint64_t);
}
return 0;
}
/*
* Convert register index number passed by GDB to the correspond
* vector CSR number. Vector CSRs are defined after vector registers
* in dynamic generated riscv-vector.xml, thus the starting register index
* of vector CSRs is 32.
* Return 0 if register index number is out of range.
*/
static int riscv_gdb_vector_csrno(int num_regs)
{
/*
* The order of vector CSRs in the switch case
* should match with the order defined in csr_ops[].
*/
switch (num_regs) {
case 32:
return CSR_VSTART;
case 33:
return CSR_VXSAT;
case 34:
return CSR_VXRM;
case 35:
return CSR_VCSR;
case 36:
return CSR_VL;
case 37:
return CSR_VTYPE;
case 38:
return CSR_VLENB;
default:
/* Unknown register. */
return 0;
}
}
static int riscv_gdb_get_vector(CPURISCVState *env, GByteArray *buf, int n)
{
uint16_t vlenb = env_archcpu(env)->cfg.vlen >> 3;
if (n < 32) {
int i;
int cnt = 0;
for (i = 0; i < vlenb; i += 8) {
cnt += gdb_get_reg64(buf,
env->vreg[(n * vlenb + i) / 8]);
}
return cnt;
}
int csrno = riscv_gdb_vector_csrno(n);
if (!csrno) {
return 0;
}
target_ulong val = 0;
int result = riscv_csrrw_debug(env, csrno, &val, 0, 0);
if (result == RISCV_EXCP_NONE) {
return gdb_get_regl(buf, val);
}
return 0;
}
static int riscv_gdb_set_vector(CPURISCVState *env, uint8_t *mem_buf, int n)
{
uint16_t vlenb = env_archcpu(env)->cfg.vlen >> 3;
if (n < 32) {
int i;
for (i = 0; i < vlenb; i += 8) {
env->vreg[(n * vlenb + i) / 8] = ldq_p(mem_buf + i);
}
return vlenb;
}
int csrno = riscv_gdb_vector_csrno(n);
if (!csrno) {
return 0;
}
target_ulong val = ldtul_p(mem_buf);
int result = riscv_csrrw_debug(env, csrno, NULL, val, -1);
if (result == RISCV_EXCP_NONE) {
return sizeof(target_ulong);
}
return 0;
}
static int riscv_gdb_get_csr(CPURISCVState *env, GByteArray *buf, int n)
{
if (n < CSR_TABLE_SIZE) {
target_ulong val = 0;
int result;
result = riscv_csrrw_debug(env, n, &val, 0, 0);
if (result == RISCV_EXCP_NONE) {
return gdb_get_regl(buf, val);
}
}
return 0;
}
static int riscv_gdb_set_csr(CPURISCVState *env, uint8_t *mem_buf, int n)
{
if (n < CSR_TABLE_SIZE) {
target_ulong val = ldtul_p(mem_buf);
int result;
result = riscv_csrrw_debug(env, n, NULL, val, -1);
if (result == RISCV_EXCP_NONE) {
return sizeof(target_ulong);
}
}
return 0;
}
static int riscv_gdb_get_virtual(CPURISCVState *cs, GByteArray *buf, int n)
{
if (n == 0) {
#ifdef CONFIG_USER_ONLY
return gdb_get_regl(buf, 0);
#else
return gdb_get_regl(buf, cs->priv);
#endif
}
return 0;
}
static int riscv_gdb_set_virtual(CPURISCVState *cs, uint8_t *mem_buf, int n)
{
if (n == 0) {
#ifndef CONFIG_USER_ONLY
cs->priv = ldtul_p(mem_buf) & 0x3;
if (cs->priv == PRV_H) {
cs->priv = PRV_S;
}
#endif
return sizeof(target_ulong);
}
return 0;
}
static int riscv_gen_dynamic_csr_xml(CPUState *cs, int base_reg)
{
RISCVCPU *cpu = RISCV_CPU(cs);
CPURISCVState *env = &cpu->env;
GString *s = g_string_new(NULL);
riscv_csr_predicate_fn predicate;
int bitsize = 16 << env->misa_mxl_max;
int i;
/* Until gdb knows about 128-bit registers */
if (bitsize > 64) {
bitsize = 64;
}
g_string_printf(s, "<?xml version=\"1.0\"?>");
g_string_append_printf(s, "<!DOCTYPE feature SYSTEM \"gdb-target.dtd\">");
g_string_append_printf(s, "<feature name=\"org.gnu.gdb.riscv.csr\">");
for (i = 0; i < CSR_TABLE_SIZE; i++) {
if (env->priv_ver < csr_ops[i].min_priv_ver) {
continue;
}
predicate = csr_ops[i].predicate;
if (predicate && (predicate(env, i) == RISCV_EXCP_NONE)) {
if (csr_ops[i].name) {
g_string_append_printf(s, "<reg name=\"%s\"", csr_ops[i].name);
} else {
g_string_append_printf(s, "<reg name=\"csr%03x\"", i);
}
g_string_append_printf(s, " bitsize=\"%d\"", bitsize);
g_string_append_printf(s, " regnum=\"%d\"/>", base_reg + i);
}
}
g_string_append_printf(s, "</feature>");
cpu->dyn_csr_xml = g_string_free(s, false);
return CSR_TABLE_SIZE;
}
static int ricsv_gen_dynamic_vector_xml(CPUState *cs, int base_reg)
{
RISCVCPU *cpu = RISCV_CPU(cs);
GString *s = g_string_new(NULL);
g_autoptr(GString) ts = g_string_new("");
int reg_width = cpu->cfg.vlen;
int num_regs = 0;
int i;
g_string_printf(s, "<?xml version=\"1.0\"?>");
g_string_append_printf(s, "<!DOCTYPE target SYSTEM \"gdb-target.dtd\">");
g_string_append_printf(s, "<feature name=\"org.gnu.gdb.riscv.vector\">");
/* First define types and totals in a whole VL */
for (i = 0; i < ARRAY_SIZE(vec_lanes); i++) {
int count = reg_width / vec_lanes[i].size;
g_string_printf(ts, "%s", vec_lanes[i].id);
g_string_append_printf(s,
"<vector id=\"%s\" type=\"%s\" count=\"%d\"/>",
ts->str, vec_lanes[i].gdb_type, count);
}
/* Define unions */
g_string_append_printf(s, "<union id=\"riscv_vector\">");
for (i = 0; i < ARRAY_SIZE(vec_lanes); i++) {
g_string_append_printf(s, "<field name=\"%c\" type=\"%s\"/>",
vec_lanes[i].suffix,
vec_lanes[i].id);
}
g_string_append(s, "</union>");
/* Define vector registers */
for (i = 0; i < 32; i++) {
g_string_append_printf(s,
"<reg name=\"v%d\" bitsize=\"%d\""
" regnum=\"%d\" group=\"vector\""
" type=\"riscv_vector\"/>",
i, reg_width, base_reg++);
num_regs++;
}
/* Define vector CSRs */
const char *vector_csrs[7] = {
"vstart", "vxsat", "vxrm", "vcsr",
"vl", "vtype", "vlenb"
};
for (i = 0; i < 7; i++) {
g_string_append_printf(s,
"<reg name=\"%s\" bitsize=\"%d\""
" regnum=\"%d\" group=\"vector\""
" type=\"int\"/>",
vector_csrs[i], TARGET_LONG_BITS, base_reg++);
num_regs++;
}
g_string_append_printf(s, "</feature>");
cpu->dyn_vreg_xml = g_string_free(s, false);
return num_regs;
}
void riscv_cpu_register_gdb_regs_for_features(CPUState *cs)
{
RISCVCPU *cpu = RISCV_CPU(cs);
CPURISCVState *env = &cpu->env;
if (env->misa_ext & RVD) {
gdb_register_coprocessor(cs, riscv_gdb_get_fpu, riscv_gdb_set_fpu,
32, "riscv-64bit-fpu.xml", 0);
} else if (env->misa_ext & RVF) {
gdb_register_coprocessor(cs, riscv_gdb_get_fpu, riscv_gdb_set_fpu,
32, "riscv-32bit-fpu.xml", 0);
}
if (env->misa_ext & RVV) {
gdb_register_coprocessor(cs, riscv_gdb_get_vector, riscv_gdb_set_vector,
ricsv_gen_dynamic_vector_xml(cs,
cs->gdb_num_regs),
"riscv-vector.xml", 0);
}
switch (env->misa_mxl_max) {
case MXL_RV32:
gdb_register_coprocessor(cs, riscv_gdb_get_virtual,
riscv_gdb_set_virtual,
1, "riscv-32bit-virtual.xml", 0);
break;
case MXL_RV64:
case MXL_RV128:
gdb_register_coprocessor(cs, riscv_gdb_get_virtual,
riscv_gdb_set_virtual,
1, "riscv-64bit-virtual.xml", 0);
break;
default:
g_assert_not_reached();
}
gdb_register_coprocessor(cs, riscv_gdb_get_csr, riscv_gdb_set_csr,
riscv_gen_dynamic_csr_xml(cs, cs->gdb_num_regs),
"riscv-csr.xml", 0);
}
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