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authorAndrew Jones <drjones@redhat.com>2020-01-23 15:22:40 +0000
committerPeter Maydell <peter.maydell@linaro.org>2020-01-23 15:34:04 +0000
commit538baab245ca881e6a6ff720b5133f3ad1fcaafc (patch)
tree3f3cf86474c86f1728b10d67aab057ae7220b92b
parentacab923dce385b8eccb9d4de8fd6b99bfca6628d (diff)
target/arm/arch_dump: Add SVE notes
When dumping a guest with dump-guest-memory also dump the SVE registers if they are in use. Signed-off-by: Andrew Jones <drjones@redhat.com> Reviewed-by: Richard Henderson <richard.henderson@linaro.org> Message-id: 20200120101832.18781-1-drjones@redhat.com [PMM: fixed checkpatch nits] Signed-off-by: Peter Maydell <peter.maydell@linaro.org>
-rw-r--r--include/elf.h1
-rw-r--r--target/arm/arch_dump.c124
-rw-r--r--target/arm/cpu.h25
-rw-r--r--target/arm/kvm64.c24
4 files changed, 148 insertions, 26 deletions
diff --git a/include/elf.h b/include/elf.h
index 3501e0c8d0..8fbfe60e09 100644
--- a/include/elf.h
+++ b/include/elf.h
@@ -1650,6 +1650,7 @@ typedef struct elf64_shdr {
#define NT_ARM_HW_BREAK 0x402 /* ARM hardware breakpoint registers */
#define NT_ARM_HW_WATCH 0x403 /* ARM hardware watchpoint registers */
#define NT_ARM_SYSTEM_CALL 0x404 /* ARM system call number */
+#define NT_ARM_SVE 0x405 /* ARM Scalable Vector Extension regs */
/*
* Physical entry point into the kernel.
diff --git a/target/arm/arch_dump.c b/target/arm/arch_dump.c
index 26a2c09868..2345dec3c2 100644
--- a/target/arm/arch_dump.c
+++ b/target/arm/arch_dump.c
@@ -62,12 +62,23 @@ struct aarch64_user_vfp_state {
QEMU_BUILD_BUG_ON(sizeof(struct aarch64_user_vfp_state) != 528);
+/* struct user_sve_header from arch/arm64/include/uapi/asm/ptrace.h */
+struct aarch64_user_sve_header {
+ uint32_t size;
+ uint32_t max_size;
+ uint16_t vl;
+ uint16_t max_vl;
+ uint16_t flags;
+ uint16_t reserved;
+} QEMU_PACKED;
+
struct aarch64_note {
Elf64_Nhdr hdr;
char name[8]; /* align_up(sizeof("CORE"), 4) */
union {
struct aarch64_elf_prstatus prstatus;
struct aarch64_user_vfp_state vfp;
+ struct aarch64_user_sve_header sve;
};
} QEMU_PACKED;
@@ -76,6 +87,8 @@ struct aarch64_note {
(AARCH64_NOTE_HEADER_SIZE + sizeof(struct aarch64_elf_prstatus))
#define AARCH64_PRFPREG_NOTE_SIZE \
(AARCH64_NOTE_HEADER_SIZE + sizeof(struct aarch64_user_vfp_state))
+#define AARCH64_SVE_NOTE_SIZE(env) \
+ (AARCH64_NOTE_HEADER_SIZE + sve_size(env))
static void aarch64_note_init(struct aarch64_note *note, DumpState *s,
const char *name, Elf64_Word namesz,
@@ -128,11 +141,102 @@ static int aarch64_write_elf64_prfpreg(WriteCoreDumpFunction f,
return 0;
}
+#ifdef TARGET_AARCH64
+static off_t sve_zreg_offset(uint32_t vq, int n)
+{
+ off_t off = sizeof(struct aarch64_user_sve_header);
+ return ROUND_UP(off, 16) + vq * 16 * n;
+}
+
+static off_t sve_preg_offset(uint32_t vq, int n)
+{
+ return sve_zreg_offset(vq, 32) + vq * 16 / 8 * n;
+}
+
+static off_t sve_fpsr_offset(uint32_t vq)
+{
+ off_t off = sve_preg_offset(vq, 17);
+ return ROUND_UP(off, 16);
+}
+
+static off_t sve_fpcr_offset(uint32_t vq)
+{
+ return sve_fpsr_offset(vq) + sizeof(uint32_t);
+}
+
+static uint32_t sve_current_vq(CPUARMState *env)
+{
+ return sve_zcr_len_for_el(env, arm_current_el(env)) + 1;
+}
+
+static size_t sve_size_vq(uint32_t vq)
+{
+ off_t off = sve_fpcr_offset(vq) + sizeof(uint32_t);
+ return ROUND_UP(off, 16);
+}
+
+static size_t sve_size(CPUARMState *env)
+{
+ return sve_size_vq(sve_current_vq(env));
+}
+
+static int aarch64_write_elf64_sve(WriteCoreDumpFunction f,
+ CPUARMState *env, int cpuid,
+ DumpState *s)
+{
+ struct aarch64_note *note;
+ ARMCPU *cpu = env_archcpu(env);
+ uint32_t vq = sve_current_vq(env);
+ uint64_t tmp[ARM_MAX_VQ * 2], *r;
+ uint32_t fpr;
+ uint8_t *buf;
+ int ret, i;
+
+ note = g_malloc0(AARCH64_SVE_NOTE_SIZE(env));
+ buf = (uint8_t *)&note->sve;
+
+ aarch64_note_init(note, s, "LINUX", 6, NT_ARM_SVE, sve_size_vq(vq));
+
+ note->sve.size = cpu_to_dump32(s, sve_size_vq(vq));
+ note->sve.max_size = cpu_to_dump32(s, sve_size_vq(cpu->sve_max_vq));
+ note->sve.vl = cpu_to_dump16(s, vq * 16);
+ note->sve.max_vl = cpu_to_dump16(s, cpu->sve_max_vq * 16);
+ note->sve.flags = cpu_to_dump16(s, 1);
+
+ for (i = 0; i < 32; ++i) {
+ r = sve_bswap64(tmp, &env->vfp.zregs[i].d[0], vq * 2);
+ memcpy(&buf[sve_zreg_offset(vq, i)], r, vq * 16);
+ }
+
+ for (i = 0; i < 17; ++i) {
+ r = sve_bswap64(tmp, r = &env->vfp.pregs[i].p[0],
+ DIV_ROUND_UP(vq * 2, 8));
+ memcpy(&buf[sve_preg_offset(vq, i)], r, vq * 16 / 8);
+ }
+
+ fpr = cpu_to_dump32(s, vfp_get_fpsr(env));
+ memcpy(&buf[sve_fpsr_offset(vq)], &fpr, sizeof(uint32_t));
+
+ fpr = cpu_to_dump32(s, vfp_get_fpcr(env));
+ memcpy(&buf[sve_fpcr_offset(vq)], &fpr, sizeof(uint32_t));
+
+ ret = f(note, AARCH64_SVE_NOTE_SIZE(env), s);
+ g_free(note);
+
+ if (ret < 0) {
+ return -1;
+ }
+
+ return 0;
+}
+#endif
+
int arm_cpu_write_elf64_note(WriteCoreDumpFunction f, CPUState *cs,
int cpuid, void *opaque)
{
struct aarch64_note note;
- CPUARMState *env = &ARM_CPU(cs)->env;
+ ARMCPU *cpu = ARM_CPU(cs);
+ CPUARMState *env = &cpu->env;
DumpState *s = opaque;
uint64_t pstate, sp;
int ret, i;
@@ -163,7 +267,18 @@ int arm_cpu_write_elf64_note(WriteCoreDumpFunction f, CPUState *cs,
return -1;
}
- return aarch64_write_elf64_prfpreg(f, env, cpuid, s);
+ ret = aarch64_write_elf64_prfpreg(f, env, cpuid, s);
+ if (ret) {
+ return ret;
+ }
+
+#ifdef TARGET_AARCH64
+ if (cpu_isar_feature(aa64_sve, cpu)) {
+ ret = aarch64_write_elf64_sve(f, env, cpuid, s);
+ }
+#endif
+
+ return ret;
}
/* struct pt_regs from arch/arm/include/asm/ptrace.h */
@@ -335,6 +450,11 @@ ssize_t cpu_get_note_size(int class, int machine, int nr_cpus)
if (class == ELFCLASS64) {
note_size = AARCH64_PRSTATUS_NOTE_SIZE;
note_size += AARCH64_PRFPREG_NOTE_SIZE;
+#ifdef TARGET_AARCH64
+ if (cpu_isar_feature(aa64_sve, cpu)) {
+ note_size += AARCH64_SVE_NOTE_SIZE(env);
+ }
+#endif
} else {
note_size = ARM_PRSTATUS_NOTE_SIZE;
if (arm_feature(env, ARM_FEATURE_VFP)) {
diff --git a/target/arm/cpu.h b/target/arm/cpu.h
index 40f2c45e17..c1aedbeac0 100644
--- a/target/arm/cpu.h
+++ b/target/arm/cpu.h
@@ -980,6 +980,31 @@ void aarch64_sve_narrow_vq(CPUARMState *env, unsigned vq);
void aarch64_sve_change_el(CPUARMState *env, int old_el,
int new_el, bool el0_a64);
void aarch64_add_sve_properties(Object *obj);
+
+/*
+ * SVE registers are encoded in KVM's memory in an endianness-invariant format.
+ * The byte at offset i from the start of the in-memory representation contains
+ * the bits [(7 + 8 * i) : (8 * i)] of the register value. As this means the
+ * lowest offsets are stored in the lowest memory addresses, then that nearly
+ * matches QEMU's representation, which is to use an array of host-endian
+ * uint64_t's, where the lower offsets are at the lower indices. To complete
+ * the translation we just need to byte swap the uint64_t's on big-endian hosts.
+ */
+static inline uint64_t *sve_bswap64(uint64_t *dst, uint64_t *src, int nr)
+{
+#ifdef HOST_WORDS_BIGENDIAN
+ int i;
+
+ for (i = 0; i < nr; ++i) {
+ dst[i] = bswap64(src[i]);
+ }
+
+ return dst;
+#else
+ return src;
+#endif
+}
+
#else
static inline void aarch64_sve_narrow_vq(CPUARMState *env, unsigned vq) { }
static inline void aarch64_sve_change_el(CPUARMState *env, int o,
diff --git a/target/arm/kvm64.c b/target/arm/kvm64.c
index 876184b8fe..e2da756e65 100644
--- a/target/arm/kvm64.c
+++ b/target/arm/kvm64.c
@@ -877,30 +877,6 @@ static int kvm_arch_put_fpsimd(CPUState *cs)
}
/*
- * SVE registers are encoded in KVM's memory in an endianness-invariant format.
- * The byte at offset i from the start of the in-memory representation contains
- * the bits [(7 + 8 * i) : (8 * i)] of the register value. As this means the
- * lowest offsets are stored in the lowest memory addresses, then that nearly
- * matches QEMU's representation, which is to use an array of host-endian
- * uint64_t's, where the lower offsets are at the lower indices. To complete
- * the translation we just need to byte swap the uint64_t's on big-endian hosts.
- */
-static uint64_t *sve_bswap64(uint64_t *dst, uint64_t *src, int nr)
-{
-#ifdef HOST_WORDS_BIGENDIAN
- int i;
-
- for (i = 0; i < nr; ++i) {
- dst[i] = bswap64(src[i]);
- }
-
- return dst;
-#else
- return src;
-#endif
-}
-
-/*
* KVM SVE registers come in slices where ZREGs have a slice size of 2048 bits
* and PREGS and the FFR have a slice size of 256 bits. However we simply hard
* code the slice index to zero for now as it's unlikely we'll need more than