#include <stdio.h>
#include <stdbool.h>
#include <string.h>
+#include <iconv.h>
#include <side/trace.h>
TRACER_DISPLAY_BASE_16,
};
+union int_value {
+ uint64_t u[NR_SIDE_INTEGER128_SPLIT];
+ int64_t s[NR_SIDE_INTEGER128_SPLIT];
+};
+
static struct side_tracer_handle *tracer_handle;
static
void tracer_print_struct(const struct side_type *type_desc, const struct side_arg_vec *side_arg_vec);
static
+void tracer_print_variant(const struct side_type *type_desc, const struct side_arg_variant *side_arg_variant);
+static
void tracer_print_array(const struct side_type *type_desc, const struct side_arg_vec *side_arg_vec);
static
void tracer_print_vla(const struct side_type *type_desc, const struct side_arg_vec *side_arg_vec);
static
-void tracer_print_vla_visitor(const struct side_type *type_desc, void *app_ctx);
+void tracer_print_vla_visitor(const struct side_type *type_desc, struct side_arg_vla_visitor *vla_visitor);
static
void tracer_print_dynamic(const struct side_arg *dynamic_item);
static
static
uint32_t tracer_print_gather_float_type(const struct side_type_gather *type_gather, const void *_ptr);
static
+uint32_t tracer_print_gather_string_type(const struct side_type_gather *type_gather, const void *_ptr);
+static
+uint32_t tracer_print_gather_enum_type(const struct side_type_gather *type_gather, const void *_ptr);
+static
uint32_t tracer_print_gather_struct(const struct side_type_gather *type_gather, const void *_ptr);
static
uint32_t tracer_print_gather_array(const struct side_type_gather *type_gather, const void *_ptr);
void tracer_print_type(const struct side_type *type_desc, const struct side_arg *item);
static
-int64_t get_attr_integer_value(const struct side_attr *attr)
+void tracer_convert_string_to_utf8(const void *p, uint8_t unit_size, enum side_type_label_byte_order byte_order,
+ size_t *strlen_with_null,
+ char **output_str)
+{
+ size_t ret, inbytesleft = 0, outbytesleft, bufsize;
+ const char *str = p, *fromcode;
+ char *inbuf = (char *) p, *outbuf, *buf;
+ iconv_t cd;
+
+ switch (unit_size) {
+ case 1:
+ if (strlen_with_null)
+ *strlen_with_null = strlen(str) + 1;
+ *output_str = (char *) str;
+ return;
+ case 2:
+ {
+ const uint16_t *p16 = p;
+
+ switch (byte_order) {
+ case SIDE_TYPE_BYTE_ORDER_LE:
+ {
+ fromcode = "UTF-16LE";
+ break;
+ }
+ case SIDE_TYPE_BYTE_ORDER_BE:
+ {
+ fromcode = "UTF-16BE";
+ break;
+ }
+ default:
+ fprintf(stderr, "Unknown byte order\n");
+ abort();
+ }
+ for (; *p16; p16++)
+ inbytesleft += 2;
+ /*
+ * Worse case is U+FFFF UTF-16 (2 bytes) converting to
+ * { ef, bf, bf } UTF-8 (3 bytes).
+ */
+ bufsize = inbytesleft / 2 * 3 + 1;
+ break;
+ }
+ case 4:
+ {
+ const uint32_t *p32 = p;
+
+ switch (byte_order) {
+ case SIDE_TYPE_BYTE_ORDER_LE:
+ {
+ fromcode = "UTF-32LE";
+ break;
+ }
+ case SIDE_TYPE_BYTE_ORDER_BE:
+ {
+ fromcode = "UTF-32BE";
+ break;
+ }
+ default:
+ fprintf(stderr, "Unknown byte order\n");
+ abort();
+ }
+ for (; *p32; p32++)
+ inbytesleft += 4;
+ /*
+ * Each 4-byte UTF-32 character converts to at most a
+ * 4-byte UTF-8 character.
+ */
+ bufsize = inbytesleft + 1;
+ break;
+ }
+ default:
+ fprintf(stderr, "Unknown string unit size %" PRIu8 "\n", unit_size);
+ abort();
+ }
+
+ cd = iconv_open("UTF8", fromcode);
+ if (cd == (iconv_t) -1) {
+ perror("iconv_open");
+ abort();
+ }
+ buf = malloc(bufsize);
+ if (!buf) {
+ abort();
+ }
+ outbuf = (char *) buf;
+ outbytesleft = bufsize;
+ ret = iconv(cd, &inbuf, &inbytesleft, &outbuf, &outbytesleft);
+ if (ret == (size_t) -1) {
+ perror("iconv");
+ abort();
+ }
+ if (inbytesleft) {
+ fprintf(stderr, "Buffer too small to convert string input\n");
+ abort();
+ }
+ (*outbuf++) = '\0';
+ if (iconv_close(cd) == -1) {
+ perror("iconv_close");
+ abort();
+ }
+ if (strlen_with_null)
+ *strlen_with_null = outbuf - buf;
+ *output_str = buf;
+}
+
+static
+void tracer_print_string(const void *p, uint8_t unit_size, enum side_type_label_byte_order byte_order,
+ size_t *strlen_with_null)
+{
+ char *output_str = NULL;
+
+ tracer_convert_string_to_utf8(p, unit_size, byte_order, strlen_with_null, &output_str);
+ printf("\"%s\"", output_str);
+ if (output_str != p)
+ free(output_str);
+}
+
+static
+void side_check_value_u64(union int_value v)
+{
+ if (v.u[SIDE_INTEGER128_SPLIT_HIGH]) {
+ fprintf(stderr, "Unexpected integer value\n");
+ abort();
+ }
+}
+
+static
+void side_check_value_s64(union int_value v)
+{
+ if (v.s[SIDE_INTEGER128_SPLIT_LOW] & (1ULL << 63)) {
+ if (v.s[SIDE_INTEGER128_SPLIT_HIGH] != ~0LL) {
+ fprintf(stderr, "Unexpected integer value\n");
+ abort();
+ }
+ } else {
+ if (v.s[SIDE_INTEGER128_SPLIT_HIGH]) {
+ fprintf(stderr, "Unexpected integer value\n");
+ abort();
+ }
+ }
+}
+
+static
+int64_t get_attr_integer64_value(const struct side_attr *attr)
{
int64_t val;
- switch (attr->value.type) {
+ switch (side_enum_get(attr->value.type)) {
case SIDE_ATTR_TYPE_U8:
val = attr->value.u.integer_value.side_u8;
break;
case SIDE_ATTR_TYPE_U64:
val = attr->value.u.integer_value.side_u64;
break;
+ case SIDE_ATTR_TYPE_U128:
+ {
+ union int_value v = {
+ .u = {
+ [SIDE_INTEGER128_SPLIT_LOW] = attr->value.u.integer_value.side_u128_split[SIDE_INTEGER128_SPLIT_LOW],
+ [SIDE_INTEGER128_SPLIT_HIGH] = attr->value.u.integer_value.side_u128_split[SIDE_INTEGER128_SPLIT_HIGH],
+ },
+ };
+ side_check_value_u64(v);
+ val = v.u[SIDE_INTEGER128_SPLIT_LOW];
+ break;
+ }
case SIDE_ATTR_TYPE_S8:
val = attr->value.u.integer_value.side_s8;
break;
case SIDE_ATTR_TYPE_S64:
val = attr->value.u.integer_value.side_s64;
break;
+ case SIDE_ATTR_TYPE_S128:
+ {
+ union int_value v = {
+ .s = {
+ [SIDE_INTEGER128_SPLIT_LOW] = attr->value.u.integer_value.side_s128_split[SIDE_INTEGER128_SPLIT_LOW],
+ [SIDE_INTEGER128_SPLIT_HIGH] = attr->value.u.integer_value.side_s128_split[SIDE_INTEGER128_SPLIT_HIGH],
+ },
+ };
+ side_check_value_s64(v);
+ val = v.s[SIDE_INTEGER128_SPLIT_LOW];
+ break;
+ }
default:
fprintf(stderr, "Unexpected attribute type\n");
abort();
for (i = 0; i < nr_attr; i++) {
const struct side_attr *attr = &_attr[i];
+ char *utf8_str = NULL;
+ bool cmp;
- if (!strcmp(attr->key, "std.integer.base")) {
- int64_t val = get_attr_integer_value(attr);
+ tracer_convert_string_to_utf8(side_ptr_get(attr->key.p), attr->key.unit_size,
+ side_enum_get(attr->key.byte_order), NULL, &utf8_str);
+ cmp = strcmp(utf8_str, "std.integer.base");
+ if (utf8_str != side_ptr_get(attr->key.p))
+ free(utf8_str);
+ if (!cmp) {
+ int64_t val = get_attr_integer64_value(attr);
switch (val) {
case 2:
return default_base; /* Default */
}
-static
-bool type_to_host_reverse_bo(const struct side_type *type_desc)
-{
- switch (type_desc->type) {
- case SIDE_TYPE_U8:
- case SIDE_TYPE_S8:
- case SIDE_TYPE_BYTE:
- return false;
- case SIDE_TYPE_U16:
- case SIDE_TYPE_U32:
- case SIDE_TYPE_U64:
- case SIDE_TYPE_S16:
- case SIDE_TYPE_S32:
- case SIDE_TYPE_S64:
- case SIDE_TYPE_POINTER:
- if (type_desc->u.side_integer.byte_order != SIDE_TYPE_BYTE_ORDER_HOST)
- return true;
- else
- return false;
- break;
- case SIDE_TYPE_FLOAT_BINARY16:
- case SIDE_TYPE_FLOAT_BINARY32:
- case SIDE_TYPE_FLOAT_BINARY64:
- case SIDE_TYPE_FLOAT_BINARY128:
- if (type_desc->u.side_float.byte_order != SIDE_TYPE_FLOAT_WORD_ORDER_HOST)
- return true;
- else
- return false;
- break;
- default:
- fprintf(stderr, "Unexpected type\n");
- abort();
- }
-}
-
static
void tracer_print_attr_type(const char *separator, const struct side_attr *attr)
{
- printf("{ key%s \"%s\", value%s ", separator, attr->key, separator);
- switch (attr->value.type) {
+ char *utf8_str = NULL;
+
+ tracer_convert_string_to_utf8(side_ptr_get(attr->key.p), attr->key.unit_size,
+ side_enum_get(attr->key.byte_order), NULL, &utf8_str);
+ printf("{ key%s \"%s\", value%s ", separator, utf8_str, separator);
+ if (utf8_str != side_ptr_get(attr->key.p))
+ free(utf8_str);
+ switch (side_enum_get(attr->value.type)) {
case SIDE_ATTR_TYPE_BOOL:
printf("%s", attr->value.u.bool_value ? "true" : "false");
break;
case SIDE_ATTR_TYPE_U64:
printf("%" PRIu64, attr->value.u.integer_value.side_u64);
break;
+ case SIDE_ATTR_TYPE_U128:
+ if (attr->value.u.integer_value.side_u128_split[SIDE_INTEGER128_SPLIT_HIGH] == 0) {
+ printf("0x%" PRIx64, attr->value.u.integer_value.side_u128_split[SIDE_INTEGER128_SPLIT_LOW]);
+ } else {
+ printf("0x%" PRIx64 "%016" PRIx64,
+ attr->value.u.integer_value.side_u128_split[SIDE_INTEGER128_SPLIT_HIGH],
+ attr->value.u.integer_value.side_u128_split[SIDE_INTEGER128_SPLIT_LOW]);
+ }
+ break;
case SIDE_ATTR_TYPE_S8:
printf("%" PRId8, attr->value.u.integer_value.side_s8);
break;
case SIDE_ATTR_TYPE_S64:
printf("%" PRId64, attr->value.u.integer_value.side_s64);
break;
+ case SIDE_ATTR_TYPE_S128:
+ if (attr->value.u.integer_value.side_s128_split[SIDE_INTEGER128_SPLIT_HIGH] == 0) {
+ printf("0x%" PRIx64, attr->value.u.integer_value.side_s128_split[SIDE_INTEGER128_SPLIT_LOW]);
+ } else {
+ printf("0x%" PRIx64 "%016" PRIx64,
+ attr->value.u.integer_value.side_s128_split[SIDE_INTEGER128_SPLIT_HIGH],
+ attr->value.u.integer_value.side_s128_split[SIDE_INTEGER128_SPLIT_LOW]);
+ }
+ break;
case SIDE_ATTR_TYPE_FLOAT_BINARY16:
#if __HAVE_FLOAT16
printf("%g", (double) attr->value.u.float_value.side_float_binary16);
abort();
#endif
case SIDE_ATTR_TYPE_STRING:
- printf("\"%s\"", (const char *)(uintptr_t) attr->value.u.string_value);
+ tracer_print_string(side_ptr_get(attr->value.u.string_value.p),
+ attr->value.u.string_value.unit_size,
+ side_enum_get(attr->value.u.string_value.byte_order), NULL);
break;
default:
fprintf(stderr, "ERROR: <UNKNOWN ATTRIBUTE TYPE>");
}
static
-void print_enum(const struct side_type *type_desc, const struct side_arg *item)
+union int_value tracer_load_integer_value(const struct side_type_integer *type_integer,
+ const union side_integer_value *value,
+ uint16_t offset_bits, uint16_t *_len_bits)
{
- const struct side_enum_mappings *mappings = type_desc->u.side_enum.mappings;
- const struct side_type *elem_type = type_desc->u.side_enum.elem_type;
- uint32_t i, print_count = 0;
- int64_t value;
+ union int_value v = {};
+ uint16_t len_bits;
+ bool reverse_bo;
- if (elem_type->type != item->type) {
- fprintf(stderr, "ERROR: Unexpected enum element type\n");
+ if (!type_integer->len_bits)
+ len_bits = type_integer->integer_size * CHAR_BIT;
+ else
+ len_bits = type_integer->len_bits;
+ if (len_bits + offset_bits > type_integer->integer_size * CHAR_BIT)
abort();
- }
- switch (item->type) {
- case SIDE_TYPE_U8:
- value = (int64_t) item->u.side_static.integer_value.side_u8;
+ reverse_bo = side_enum_get(type_integer->byte_order) != SIDE_TYPE_BYTE_ORDER_HOST;
+ switch (type_integer->integer_size) {
+ case 1:
+ if (type_integer->signedness)
+ v.s[SIDE_INTEGER128_SPLIT_LOW] = value->side_s8;
+ else
+ v.u[SIDE_INTEGER128_SPLIT_LOW] = value->side_u8;
break;
- case SIDE_TYPE_U16:
- {
- uint16_t v;
+ case 2:
+ if (type_integer->signedness) {
+ int16_t side_s16;
- v = item->u.side_static.integer_value.side_u16;
- if (type_to_host_reverse_bo(elem_type))
- v = side_bswap_16(v);
- value = (int64_t) v;
- break;
- }
- case SIDE_TYPE_U32:
- {
- uint32_t v;
+ side_s16 = value->side_s16;
+ if (reverse_bo)
+ side_s16 = side_bswap_16(side_s16);
+ v.s[SIDE_INTEGER128_SPLIT_LOW] = side_s16;
+ } else {
+ uint16_t side_u16;
- v = item->u.side_static.integer_value.side_u32;
- if (type_to_host_reverse_bo(elem_type))
- v = side_bswap_32(v);
- value = (int64_t) v;
+ side_u16 = value->side_u16;
+ if (reverse_bo)
+ side_u16 = side_bswap_16(side_u16);
+ v.u[SIDE_INTEGER128_SPLIT_LOW] = side_u16;
+ }
break;
- }
- case SIDE_TYPE_U64:
- {
- uint64_t v;
+ case 4:
+ if (type_integer->signedness) {
+ int32_t side_s32;
- v = item->u.side_static.integer_value.side_u64;
- if (type_to_host_reverse_bo(elem_type))
- v = side_bswap_64(v);
- value = (int64_t) v;
- break;
- }
- case SIDE_TYPE_S8:
- value = (int64_t) item->u.side_static.integer_value.side_s8;
- break;
- case SIDE_TYPE_S16:
- {
- int16_t v;
+ side_s32 = value->side_s32;
+ if (reverse_bo)
+ side_s32 = side_bswap_32(side_s32);
+ v.s[SIDE_INTEGER128_SPLIT_LOW] = side_s32;
+ } else {
+ uint32_t side_u32;
- v = item->u.side_static.integer_value.side_s16;
- if (type_to_host_reverse_bo(elem_type))
- v = side_bswap_16(v);
- value = (int64_t) v;
+ side_u32 = value->side_u32;
+ if (reverse_bo)
+ side_u32 = side_bswap_32(side_u32);
+ v.u[SIDE_INTEGER128_SPLIT_LOW] = side_u32;
+ }
break;
- }
- case SIDE_TYPE_S32:
- {
- int32_t v;
+ case 8:
+ if (type_integer->signedness) {
+ int64_t side_s64;
- v = item->u.side_static.integer_value.side_s32;
- if (type_to_host_reverse_bo(elem_type))
- v = side_bswap_32(v);
- value = (int64_t) v;
- break;
- }
- case SIDE_TYPE_S64:
- {
- int64_t v;
+ side_s64 = value->side_s64;
+ if (reverse_bo)
+ side_s64 = side_bswap_64(side_s64);
+ v.s[SIDE_INTEGER128_SPLIT_LOW] = side_s64;
+ } else {
+ uint64_t side_u64;
- v = item->u.side_static.integer_value.side_s64;
- if (type_to_host_reverse_bo(elem_type))
- v = side_bswap_64(v);
- value = v;
+ side_u64 = value->side_u64;
+ if (reverse_bo)
+ side_u64 = side_bswap_64(side_u64);
+ v.u[SIDE_INTEGER128_SPLIT_LOW] = side_u64;
+ }
+ break;
+ case 16:
+ if (type_integer->signedness) {
+ int64_t side_s64[NR_SIDE_INTEGER128_SPLIT];
+
+ side_s64[SIDE_INTEGER128_SPLIT_LOW] = value->side_s128_split[SIDE_INTEGER128_SPLIT_LOW];
+ side_s64[SIDE_INTEGER128_SPLIT_HIGH] = value->side_s128_split[SIDE_INTEGER128_SPLIT_HIGH];
+ if (reverse_bo) {
+ side_s64[SIDE_INTEGER128_SPLIT_LOW] = side_bswap_64(side_s64[SIDE_INTEGER128_SPLIT_LOW]);
+ side_s64[SIDE_INTEGER128_SPLIT_HIGH] = side_bswap_64(side_s64[SIDE_INTEGER128_SPLIT_HIGH]);
+ v.s[SIDE_INTEGER128_SPLIT_LOW] = side_s64[SIDE_INTEGER128_SPLIT_HIGH];
+ v.s[SIDE_INTEGER128_SPLIT_HIGH] = side_s64[SIDE_INTEGER128_SPLIT_LOW];
+ } else {
+ v.s[SIDE_INTEGER128_SPLIT_LOW] = side_s64[SIDE_INTEGER128_SPLIT_LOW];
+ v.s[SIDE_INTEGER128_SPLIT_HIGH] = side_s64[SIDE_INTEGER128_SPLIT_HIGH];
+ }
+ } else {
+ uint64_t side_u64[NR_SIDE_INTEGER128_SPLIT];
+
+ side_u64[SIDE_INTEGER128_SPLIT_LOW] = value->side_u128_split[SIDE_INTEGER128_SPLIT_LOW];
+ side_u64[SIDE_INTEGER128_SPLIT_HIGH] = value->side_u128_split[SIDE_INTEGER128_SPLIT_HIGH];
+ if (reverse_bo) {
+ side_u64[SIDE_INTEGER128_SPLIT_LOW] = side_bswap_64(side_u64[SIDE_INTEGER128_SPLIT_LOW]);
+ side_u64[SIDE_INTEGER128_SPLIT_HIGH] = side_bswap_64(side_u64[SIDE_INTEGER128_SPLIT_HIGH]);
+ v.u[SIDE_INTEGER128_SPLIT_LOW] = side_u64[SIDE_INTEGER128_SPLIT_HIGH];
+ v.u[SIDE_INTEGER128_SPLIT_HIGH] = side_u64[SIDE_INTEGER128_SPLIT_LOW];
+ } else {
+ v.u[SIDE_INTEGER128_SPLIT_LOW] = side_u64[SIDE_INTEGER128_SPLIT_LOW];
+ v.u[SIDE_INTEGER128_SPLIT_HIGH] = side_u64[SIDE_INTEGER128_SPLIT_HIGH];
+ }
+ }
break;
- }
default:
- fprintf(stderr, "ERROR: Unexpected enum element type\n");
abort();
}
- print_attributes("attr", ":", mappings->attr, mappings->nr_attr);
- printf("%s", mappings->nr_attr ? ", " : "");
- tracer_print_type(type_desc->u.side_enum.elem_type, item);
+ if (type_integer->integer_size <= 8) {
+ v.u[SIDE_INTEGER128_SPLIT_LOW] >>= offset_bits;
+ if (len_bits < 64) {
+ v.u[SIDE_INTEGER128_SPLIT_LOW] &= (1ULL << len_bits) - 1;
+ if (type_integer->signedness) {
+ /* Sign-extend. */
+ if (v.u[SIDE_INTEGER128_SPLIT_LOW] & (1ULL << (len_bits - 1))) {
+ v.u[SIDE_INTEGER128_SPLIT_LOW] |= ~((1ULL << len_bits) - 1);
+ v.u[SIDE_INTEGER128_SPLIT_HIGH] = ~0ULL;
+ }
+ }
+ }
+ } else {
+ //TODO: Implement 128-bit integer with len_bits != 128 or nonzero offset_bits
+ if (len_bits < 128 || offset_bits != 0)
+ abort();
+ }
+ if (_len_bits)
+ *_len_bits = len_bits;
+ return v;
+}
+
+static
+void print_enum_labels(const struct side_enum_mappings *mappings, union int_value v)
+{
+ uint32_t i, print_count = 0;
+
+ side_check_value_s64(v);
printf(", labels: [ ");
for (i = 0; i < mappings->nr_mappings; i++) {
- const struct side_enum_mapping *mapping = &mappings->mappings[i];
+ const struct side_enum_mapping *mapping = &side_ptr_get(mappings->mappings)[i];
if (mapping->range_end < mapping->range_begin) {
fprintf(stderr, "ERROR: Unexpected enum range: %" PRIu64 "-%" PRIu64 "\n",
mapping->range_begin, mapping->range_end);
abort();
}
- if (value >= mapping->range_begin && value <= mapping->range_end) {
+ if (v.s[SIDE_INTEGER128_SPLIT_LOW] >= mapping->range_begin && v.s[SIDE_INTEGER128_SPLIT_LOW] <= mapping->range_end) {
printf("%s", print_count++ ? ", " : "");
- printf("\"%s\"", mapping->label);
+ tracer_print_string(side_ptr_get(mapping->label.p), mapping->label.unit_size,
+ side_enum_get(mapping->label.byte_order), NULL);
}
}
if (!print_count)
}
static
-uint32_t enum_elem_type_to_stride(const struct side_type *elem_type)
+void tracer_print_enum(const struct side_type *type_desc, const struct side_arg *item)
+{
+ const struct side_enum_mappings *mappings = side_ptr_get(type_desc->u.side_enum.mappings);
+ const struct side_type *elem_type = side_ptr_get(type_desc->u.side_enum.elem_type);
+ union int_value v;
+
+ if (side_enum_get(elem_type->type) != side_enum_get(item->type)) {
+ fprintf(stderr, "ERROR: Unexpected enum element type\n");
+ abort();
+ }
+ v = tracer_load_integer_value(&elem_type->u.side_integer,
+ &item->u.side_static.integer_value, 0, NULL);
+ print_attributes("attr", ":", side_ptr_get(mappings->attr), mappings->nr_attr);
+ printf("%s", mappings->nr_attr ? ", " : "");
+ tracer_print_type(elem_type, item);
+ print_enum_labels(mappings, v);
+}
+
+static
+uint32_t elem_type_to_stride(const struct side_type *elem_type)
{
uint32_t stride_bit;
- switch (elem_type->type) {
- case SIDE_TYPE_U8: /* Fall-through */
+ switch (side_enum_get(elem_type->type)) {
case SIDE_TYPE_BYTE:
stride_bit = 8;
break;
+
+ case SIDE_TYPE_U8:
case SIDE_TYPE_U16:
- stride_bit = 16;
- break;
case SIDE_TYPE_U32:
- stride_bit = 32;
- break;
case SIDE_TYPE_U64:
- stride_bit = 64;
- break;
+ case SIDE_TYPE_U128:
+ case SIDE_TYPE_S8:
+ case SIDE_TYPE_S16:
+ case SIDE_TYPE_S32:
+ case SIDE_TYPE_S64:
+ case SIDE_TYPE_S128:
+ return elem_type->u.side_integer.integer_size * CHAR_BIT;
default:
- fprintf(stderr, "ERROR: Unexpected enum element type\n");
+ fprintf(stderr, "ERROR: Unexpected enum bitmap element type\n");
abort();
}
return stride_bit;
}
static
-void print_enum_bitmap(const struct side_type *type_desc,
+void tracer_print_enum_bitmap(const struct side_type *type_desc,
const struct side_arg *item)
{
- const struct side_type *elem_type = type_desc->u.side_enum_bitmap.elem_type;
- const struct side_enum_bitmap_mappings *side_enum_mappings = type_desc->u.side_enum_bitmap.mappings;
+ const struct side_enum_bitmap_mappings *side_enum_mappings = side_ptr_get(type_desc->u.side_enum_bitmap.mappings);
+ const struct side_type *enum_elem_type = side_ptr_get(type_desc->u.side_enum_bitmap.elem_type), *elem_type;
uint32_t i, print_count = 0, stride_bit, nr_items;
- bool reverse_byte_order = false;
const struct side_arg *array_item;
- switch (elem_type->type) {
+ switch (side_enum_get(enum_elem_type->type)) {
case SIDE_TYPE_U8: /* Fall-through */
case SIDE_TYPE_BYTE: /* Fall-through */
case SIDE_TYPE_U16: /* Fall-through */
case SIDE_TYPE_U32: /* Fall-through */
- case SIDE_TYPE_U64:
- stride_bit = enum_elem_type_to_stride(elem_type);
- reverse_byte_order = type_to_host_reverse_bo(elem_type);
+ case SIDE_TYPE_U64: /* Fall-through */
+ case SIDE_TYPE_U128: /* Fall-through */
+ case SIDE_TYPE_S8: /* Fall-through */
+ case SIDE_TYPE_S16: /* Fall-through */
+ case SIDE_TYPE_S32: /* Fall-through */
+ case SIDE_TYPE_S64: /* Fall-through */
+ case SIDE_TYPE_S128:
+ elem_type = enum_elem_type;
array_item = item;
nr_items = 1;
break;
case SIDE_TYPE_ARRAY:
- stride_bit = enum_elem_type_to_stride(elem_type->u.side_array.elem_type);
- reverse_byte_order = type_to_host_reverse_bo(elem_type->u.side_array.elem_type);
- array_item = item->u.side_static.side_array->sav;
+ elem_type = side_ptr_get(enum_elem_type->u.side_array.elem_type);
+ array_item = side_ptr_get(side_ptr_get(item->u.side_static.side_array)->sav);
nr_items = type_desc->u.side_array.length;
break;
case SIDE_TYPE_VLA:
- stride_bit = enum_elem_type_to_stride(elem_type->u.side_vla.elem_type);
- reverse_byte_order = type_to_host_reverse_bo(elem_type->u.side_vla.elem_type);
- array_item = item->u.side_static.side_vla->sav;
- nr_items = item->u.side_static.side_vla->len;
+ elem_type = side_ptr_get(enum_elem_type->u.side_vla.elem_type);
+ array_item = side_ptr_get(side_ptr_get(item->u.side_static.side_vla)->sav);
+ nr_items = side_ptr_get(item->u.side_static.side_vla)->len;
break;
default:
fprintf(stderr, "ERROR: Unexpected enum element type\n");
abort();
}
+ stride_bit = elem_type_to_stride(elem_type);
- print_attributes("attr", ":", side_enum_mappings->attr, side_enum_mappings->nr_attr);
+ print_attributes("attr", ":", side_ptr_get(side_enum_mappings->attr), side_enum_mappings->nr_attr);
printf("%s", side_enum_mappings->nr_attr ? ", " : "");
printf("labels: [ ");
for (i = 0; i < side_enum_mappings->nr_mappings; i++) {
- const struct side_enum_bitmap_mapping *mapping = &side_enum_mappings->mappings[i];
+ const struct side_enum_bitmap_mapping *mapping = &side_ptr_get(side_enum_mappings->mappings)[i];
bool match = false;
uint64_t bit;
for (bit = mapping->range_begin; bit <= mapping->range_end; bit++) {
if (bit > (nr_items * stride_bit) - 1)
break;
- switch (stride_bit) {
- case 8:
- {
- uint8_t v = array_item[bit / 8].u.side_static.integer_value.side_u8;
+ if (side_enum_get(elem_type->type) == SIDE_TYPE_BYTE) {
+ uint8_t v = array_item[bit / 8].u.side_static.byte_value;
if (v & (1ULL << (bit % 8))) {
match = true;
goto match;
}
- break;
- }
- case 16:
- {
- uint16_t v = array_item[bit / 16].u.side_static.integer_value.side_u16;
- if (reverse_byte_order)
- v = side_bswap_16(v);
- if (v & (1ULL << (bit % 16))) {
- match = true;
- goto match;
- }
- break;
- }
- case 32:
- {
- uint32_t v = array_item[bit / 32].u.side_static.integer_value.side_u32;
- if (reverse_byte_order)
- v = side_bswap_32(v);
- if (v & (1ULL << (bit % 32))) {
- match = true;
- goto match;
- }
- break;
- }
- case 64:
- {
- uint64_t v = array_item[bit / 64].u.side_static.integer_value.side_u64;
- if (reverse_byte_order)
- v = side_bswap_64(v);
- if (v & (1ULL << (bit % 64))) {
+ } else {
+ union int_value v = {};
+
+ v = tracer_load_integer_value(&elem_type->u.side_integer,
+ &array_item[bit / stride_bit].u.side_static.integer_value,
+ 0, NULL);
+ side_check_value_u64(v);
+ if (v.u[SIDE_INTEGER128_SPLIT_LOW] & (1ULL << (bit % stride_bit))) {
match = true;
goto match;
}
- break;
- }
- default:
- abort();
}
}
match:
if (match) {
printf("%s", print_count++ ? ", " : "");
- printf("\"%s\"", mapping->label);
+ tracer_print_string(side_ptr_get(mapping->label.p), mapping->label.unit_size,
+ side_enum_get(mapping->label.byte_order), NULL);
}
}
if (!print_count)
}
static
-void print_integer_binary(uint64_t v, int bits)
+void print_integer_binary(uint64_t v[NR_SIDE_INTEGER128_SPLIT], int bits)
{
- int i;
+ int bit;
printf("0b");
- v <<= 64 - bits;
- for (i = 0; i < bits; i++) {
- printf("%c", v & (1ULL << 63) ? '1' : '0');
- v <<= 1;
+ if (bits > 64) {
+ bits -= 64;
+ v[SIDE_INTEGER128_SPLIT_HIGH] <<= 64 - bits;
+ for (bit = 0; bit < bits; bit++) {
+ printf("%c", v[SIDE_INTEGER128_SPLIT_HIGH] & (1ULL << 63) ? '1' : '0');
+ v[SIDE_INTEGER128_SPLIT_HIGH] <<= 1;
+ }
+ bits = 64;
+ }
+ v[SIDE_INTEGER128_SPLIT_LOW] <<= 64 - bits;
+ for (bit = 0; bit < bits; bit++) {
+ printf("%c", v[SIDE_INTEGER128_SPLIT_LOW] & (1ULL << 63) ? '1' : '0');
+ v[SIDE_INTEGER128_SPLIT_LOW] <<= 1;
}
}
len_bits = type_bool->len_bits;
if (len_bits + offset_bits > type_bool->bool_size * CHAR_BIT)
abort();
- reverse_bo = type_bool->byte_order != SIDE_TYPE_BYTE_ORDER_HOST;
+ reverse_bo = side_enum_get(type_bool->byte_order) != SIDE_TYPE_BYTE_ORDER_HOST;
switch (type_bool->bool_size) {
case 1:
v = value->side_bool8;
v >>= offset_bits;
if (len_bits < 64)
v &= (1ULL << len_bits) - 1;
- tracer_print_type_header(separator, type_bool->attr, type_bool->nr_attr);
+ tracer_print_type_header(separator, side_ptr_get(type_bool->attr), type_bool->nr_attr);
printf("%s", v ? "true" : "false");
}
+/* 2^128 - 1 */
+#define U128_BASE_10_ARRAY_LEN sizeof("340282366920938463463374607431768211455")
+/* -2^127 */
+#define S128_BASE_10_ARRAY_LEN sizeof("-170141183460469231731687303715884105728")
+
+/*
+ * u128_tostring_base_10 is inspired from https://stackoverflow.com/a/4364365
+ */
static
-void tracer_print_type_integer(const char *separator,
- const struct side_type_integer *type_integer,
- const union side_integer_value *value,
- uint16_t offset_bits,
- enum tracer_display_base default_base)
+void u128_tostring_base_10(union int_value v, char str[U128_BASE_10_ARRAY_LEN])
{
- enum tracer_display_base base;
- uint32_t len_bits;
- bool reverse_bo;
- union {
- uint64_t v_unsigned;
- int64_t v_signed;
- } v;
-
- if (!type_integer->len_bits)
- len_bits = type_integer->integer_size * CHAR_BIT;
- else
- len_bits = type_integer->len_bits;
- if (len_bits + offset_bits > type_integer->integer_size * CHAR_BIT)
- abort();
- reverse_bo = type_integer->byte_order != SIDE_TYPE_BYTE_ORDER_HOST;
- switch (type_integer->integer_size) {
- case 1:
- if (type_integer->signedness)
- v.v_signed = value->side_s8;
- else
- v.v_unsigned = value->side_u8;
- break;
- case 2:
- if (type_integer->signedness) {
- int16_t side_s16;
+ int d[39] = {}, i, j, str_i = 0;
+
+ for (i = 63; i > -1; i--) {
+ if ((v.u[SIDE_INTEGER128_SPLIT_HIGH] >> i) & 1)
+ d[0]++;
+ for (j = 0; j < 39; j++)
+ d[j] *= 2;
+ for (j = 0; j < 38; j++) {
+ d[j + 1] += d[j] / 10;
+ d[j] %= 10;
+ }
+ }
+ for (i = 63; i > -1; i--) {
+ if ((v.u[SIDE_INTEGER128_SPLIT_LOW] >> i) & 1)
+ d[0]++;
+ if (i > 0) {
+ for (j = 0; j < 39; j++)
+ d[j] *= 2;
+ }
+ for (j = 0; j < 38; j++) {
+ d[j + 1] += d[j] / 10;
+ d[j] %= 10;
+ }
+ }
+ for (i = 38; i > 0; i--)
+ if (d[i] > 0)
+ break;
+ for (; i > -1; i--) {
+ str[str_i++] = '0' + d[i];
+ }
+ str[str_i] = '\0';
+}
- side_s16 = value->side_s16;
- if (reverse_bo)
- side_s16 = side_bswap_16(side_s16);
- v.v_signed = side_s16;
- } else {
- uint16_t side_u16;
+static
+void s128_tostring_base_10(union int_value v, char str[S128_BASE_10_ARRAY_LEN])
+{
+ uint64_t low, high, tmp;
- side_u16 = value->side_u16;
- if (reverse_bo)
- side_u16 = side_bswap_16(side_u16);
- v.v_unsigned = side_u16;
- }
- break;
- case 4:
- if (type_integer->signedness) {
- int32_t side_s32;
+ if (v.s[SIDE_INTEGER128_SPLIT_HIGH] >= 0) {
+ /* Positive. */
+ v.u[SIDE_INTEGER128_SPLIT_LOW] = (uint64_t) v.s[SIDE_INTEGER128_SPLIT_LOW];
+ v.u[SIDE_INTEGER128_SPLIT_HIGH] = (uint64_t) v.s[SIDE_INTEGER128_SPLIT_HIGH];
+ u128_tostring_base_10(v, str);
+ return;
+ }
- side_s32 = value->side_s32;
- if (reverse_bo)
- side_s32 = side_bswap_32(side_s32);
- v.v_signed = side_s32;
- } else {
- uint32_t side_u32;
+ /* Negative. */
- side_u32 = value->side_u32;
- if (reverse_bo)
- side_u32 = side_bswap_32(side_u32);
- v.v_unsigned = side_u32;
- }
- break;
- case 8:
- if (type_integer->signedness) {
- int64_t side_s64;
+ /* Special-case minimum value, which has no positive signed representation. */
+ if ((v.s[SIDE_INTEGER128_SPLIT_HIGH] == INT64_MIN) && (v.s[SIDE_INTEGER128_SPLIT_LOW] == 0)) {
+ memcpy(str, "-170141183460469231731687303715884105728", S128_BASE_10_ARRAY_LEN);
+ return;
+ }
+ /* Convert from two's complement. */
+ high = ~(uint64_t) v.s[SIDE_INTEGER128_SPLIT_HIGH];
+ low = ~(uint64_t) v.s[SIDE_INTEGER128_SPLIT_LOW];
+ tmp = low + 1;
+ if (tmp < low) {
+ high++;
+ /* Clear overflow to sign bit. */
+ high &= ~0x8000000000000000ULL;
+ }
+ v.u[SIDE_INTEGER128_SPLIT_LOW] = tmp;
+ v.u[SIDE_INTEGER128_SPLIT_HIGH] = high;
+ str[0] = '-';
+ u128_tostring_base_10(v, str + 1);
+}
- side_s64 = value->side_s64;
- if (reverse_bo)
- side_s64 = side_bswap_64(side_s64);
- v.v_signed = side_s64;
- } else {
- uint64_t side_u64;
+/* 2^128 - 1 */
+#define U128_BASE_8_ARRAY_LEN sizeof("3777777777777777777777777777777777777777777")
- side_u64 = value->side_u64;
- if (reverse_bo)
- side_u64 = side_bswap_64(side_u64);
- v.v_unsigned = side_u64;
+static
+void u128_tostring_base_8(union int_value v, char str[U128_BASE_8_ARRAY_LEN])
+{
+ int d[43] = {}, i, j, str_i = 0;
+
+ for (i = 63; i > -1; i--) {
+ if ((v.u[SIDE_INTEGER128_SPLIT_HIGH] >> i) & 1)
+ d[0]++;
+ for (j = 0; j < 43; j++)
+ d[j] *= 2;
+ for (j = 0; j < 42; j++) {
+ d[j + 1] += d[j] / 8;
+ d[j] %= 8;
}
- break;
- default:
- abort();
}
- v.v_unsigned >>= offset_bits;
- if (len_bits < 64)
- v.v_unsigned &= (1ULL << len_bits) - 1;
- tracer_print_type_header(separator, type_integer->attr, type_integer->nr_attr);
- base = get_attr_display_base(type_integer->attr,
- type_integer->nr_attr,
- default_base);
+ for (i = 63; i > -1; i--) {
+ if ((v.u[SIDE_INTEGER128_SPLIT_LOW] >> i) & 1)
+ d[0]++;
+ if (i > 0) {
+ for (j = 0; j < 43; j++)
+ d[j] *= 2;
+ }
+ for (j = 0; j < 42; j++) {
+ d[j + 1] += d[j] / 8;
+ d[j] %= 8;
+ }
+ }
+ for (i = 42; i > 0; i--)
+ if (d[i] > 0)
+ break;
+ for (; i > -1; i--) {
+ str[str_i++] = '0' + d[i];
+ }
+ str[str_i] = '\0';
+}
+
+static
+void tracer_print_type_integer(const char *separator,
+ const struct side_type_integer *type_integer,
+ const union side_integer_value *value,
+ uint16_t offset_bits,
+ enum tracer_display_base default_base)
+{
+ enum tracer_display_base base;
+ union int_value v;
+ uint16_t len_bits;
+
+ v = tracer_load_integer_value(type_integer, value, offset_bits, &len_bits);
+ tracer_print_type_header(separator, side_ptr_get(type_integer->attr), type_integer->nr_attr);
+ base = get_attr_display_base(side_ptr_get(type_integer->attr), type_integer->nr_attr, default_base);
switch (base) {
case TRACER_DISPLAY_BASE_2:
- print_integer_binary(v.v_unsigned, len_bits);
+ print_integer_binary(v.u, len_bits);
break;
case TRACER_DISPLAY_BASE_8:
- printf("0%" PRIo64, v.v_unsigned);
+ /* Clear sign bits beyond len_bits */
+ if (len_bits < 64) {
+ v.u[SIDE_INTEGER128_SPLIT_LOW] &= (1ULL << len_bits) - 1;
+ v.u[SIDE_INTEGER128_SPLIT_HIGH] = 0;
+ } else if (len_bits < 128) {
+ v.u[SIDE_INTEGER128_SPLIT_HIGH] &= (1ULL << (len_bits - 64)) - 1;
+ }
+ if (len_bits <= 64) {
+ printf("0o%" PRIo64, v.u[SIDE_INTEGER128_SPLIT_LOW]);
+ } else {
+ char str[U128_BASE_8_ARRAY_LEN];
+
+ u128_tostring_base_8(v, str);
+ printf("0o%s", str);
+ }
break;
case TRACER_DISPLAY_BASE_10:
- if (type_integer->signedness) {
- /* Sign-extend. */
- if (len_bits < 64) {
- if (v.v_unsigned & (1ULL << (len_bits - 1)))
- v.v_unsigned |= ~((1ULL << len_bits) - 1);
- }
- printf("%" PRId64, v.v_signed);
+ if (len_bits <= 64) {
+ if (type_integer->signedness)
+ printf("%" PRId64, v.s[SIDE_INTEGER128_SPLIT_LOW]);
+ else
+ printf("%" PRIu64, v.u[SIDE_INTEGER128_SPLIT_LOW]);
} else {
- printf("%" PRIu64, v.v_unsigned);
+ if (type_integer->signedness) {
+ char str[S128_BASE_10_ARRAY_LEN];
+ s128_tostring_base_10(v, str);
+ printf("%s", str);
+ } else {
+ char str[U128_BASE_10_ARRAY_LEN];
+ u128_tostring_base_10(v, str);
+ printf("%s", str);
+ }
}
break;
case TRACER_DISPLAY_BASE_16:
- printf("0x%" PRIx64, v.v_unsigned);
+ /* Clear sign bits beyond len_bits */
+ if (len_bits < 64) {
+ v.u[SIDE_INTEGER128_SPLIT_LOW] &= (1ULL << len_bits) - 1;
+ v.u[SIDE_INTEGER128_SPLIT_HIGH] = 0;
+ } else if (len_bits < 128) {
+ v.u[SIDE_INTEGER128_SPLIT_HIGH] &= (1ULL << (len_bits - 64)) - 1;
+ }
+ if (len_bits <= 64 || v.u[SIDE_INTEGER128_SPLIT_HIGH] == 0) {
+ printf("0x%" PRIx64, v.u[SIDE_INTEGER128_SPLIT_LOW]);
+ } else {
+ printf("0x%" PRIx64 "%016" PRIx64,
+ v.u[SIDE_INTEGER128_SPLIT_HIGH],
+ v.u[SIDE_INTEGER128_SPLIT_LOW]);
+ }
break;
default:
abort();
{
bool reverse_bo;
- reverse_bo = type_float->byte_order != SIDE_TYPE_FLOAT_WORD_ORDER_HOST;
- tracer_print_type_header(separator, type_float->attr, type_float->nr_attr);
+ tracer_print_type_header(separator, side_ptr_get(type_float->attr), type_float->nr_attr);
+ reverse_bo = side_enum_get(type_float->byte_order) != SIDE_TYPE_FLOAT_WORD_ORDER_HOST;
switch (type_float->float_size) {
case 2:
{
if (reverse_bo)
float16.u = side_bswap_16(float16.u);
- tracer_print_type_header(":", type_desc->u.side_float.attr, type_desc->u.side_float.nr_attr);
printf("%g", (double) float16.f);
break;
#else
{
enum side_type_label type;
- switch (type_desc->type) {
+ switch (side_enum_get(type_desc->type)) {
case SIDE_TYPE_ENUM:
- switch (item->type) {
+ switch (side_enum_get(item->type)) {
case SIDE_TYPE_U8:
case SIDE_TYPE_U16:
case SIDE_TYPE_U32:
case SIDE_TYPE_U64:
+ case SIDE_TYPE_U128:
case SIDE_TYPE_S8:
case SIDE_TYPE_S16:
case SIDE_TYPE_S32:
case SIDE_TYPE_S64:
+ case SIDE_TYPE_S128:
break;
default:
fprintf(stderr, "ERROR: type mismatch between description and arguments\n");
break;
case SIDE_TYPE_ENUM_BITMAP:
- switch (item->type) {
+ switch (side_enum_get(item->type)) {
case SIDE_TYPE_U8:
case SIDE_TYPE_BYTE:
case SIDE_TYPE_U16:
case SIDE_TYPE_U32:
case SIDE_TYPE_U64:
+ case SIDE_TYPE_U128:
case SIDE_TYPE_ARRAY:
case SIDE_TYPE_VLA:
break;
}
break;
+ case SIDE_TYPE_GATHER_ENUM:
+ switch (side_enum_get(item->type)) {
+ case SIDE_TYPE_GATHER_INTEGER:
+ break;
+ default:
+ fprintf(stderr, "ERROR: type mismatch between description and arguments\n");
+ abort();
+ break;
+ }
+ break;
+
case SIDE_TYPE_DYNAMIC:
- switch (item->type) {
+ switch (side_enum_get(item->type)) {
case SIDE_TYPE_DYNAMIC_NULL:
case SIDE_TYPE_DYNAMIC_BOOL:
case SIDE_TYPE_DYNAMIC_INTEGER:
break;
default:
- if (type_desc->type != item->type) {
+ if (side_enum_get(type_desc->type) != side_enum_get(item->type)) {
fprintf(stderr, "ERROR: type mismatch between description and arguments\n");
abort();
}
break;
}
- if (type_desc->type == SIDE_TYPE_ENUM || type_desc->type == SIDE_TYPE_ENUM_BITMAP)
- type = (enum side_type_label) type_desc->type;
+ if (side_enum_get(type_desc->type) == SIDE_TYPE_ENUM || side_enum_get(type_desc->type) == SIDE_TYPE_ENUM_BITMAP || side_enum_get(type_desc->type) == SIDE_TYPE_GATHER_ENUM)
+ type = side_enum_get(type_desc->type);
else
- type = (enum side_type_label) item->type;
+ type = side_enum_get(item->type);
printf("{ ");
switch (type) {
+ /* Stack-copy basic types */
case SIDE_TYPE_NULL:
- tracer_print_type_header(":", type_desc->u.side_null.attr, type_desc->u.side_null.nr_attr);
+ tracer_print_type_header(":", side_ptr_get(type_desc->u.side_null.attr),
+ type_desc->u.side_null.nr_attr);
printf("<NULL TYPE>");
break;
case SIDE_TYPE_U16:
case SIDE_TYPE_U32:
case SIDE_TYPE_U64:
+ case SIDE_TYPE_U128:
case SIDE_TYPE_S8:
case SIDE_TYPE_S16:
case SIDE_TYPE_S32:
case SIDE_TYPE_S64:
+ case SIDE_TYPE_S128:
tracer_print_type_integer(":", &type_desc->u.side_integer, &item->u.side_static.integer_value, 0,
TRACER_DISPLAY_BASE_10);
break;
- case SIDE_TYPE_POINTER:
- tracer_print_type_integer(":", &type_desc->u.side_integer, &item->u.side_static.integer_value, 0,
- TRACER_DISPLAY_BASE_16);
- break;
-
case SIDE_TYPE_BYTE:
- tracer_print_type_header(":", type_desc->u.side_byte.attr, type_desc->u.side_byte.nr_attr);
+ tracer_print_type_header(":", side_ptr_get(type_desc->u.side_byte.attr), type_desc->u.side_byte.nr_attr);
printf("0x%" PRIx8, item->u.side_static.byte_value);
break;
- case SIDE_TYPE_ENUM:
- print_enum(type_desc, item);
- break;
-
- case SIDE_TYPE_ENUM_BITMAP:
- print_enum_bitmap(type_desc, item);
+ case SIDE_TYPE_POINTER:
+ tracer_print_type_integer(":", &type_desc->u.side_integer, &item->u.side_static.integer_value, 0,
+ TRACER_DISPLAY_BASE_16);
break;
case SIDE_TYPE_FLOAT_BINARY16:
tracer_print_type_float(":", &type_desc->u.side_float, &item->u.side_static.float_value);
break;
- case SIDE_TYPE_STRING:
- tracer_print_type_header(":", type_desc->u.side_string.attr, type_desc->u.side_string.nr_attr);
- printf("\"%s\"", (const char *)(uintptr_t) item->u.side_static.string_value);
+ case SIDE_TYPE_STRING_UTF8:
+ case SIDE_TYPE_STRING_UTF16:
+ case SIDE_TYPE_STRING_UTF32:
+ tracer_print_type_header(":", side_ptr_get(type_desc->u.side_string.attr), type_desc->u.side_string.nr_attr);
+ tracer_print_string(side_ptr_get(item->u.side_static.string_value),
+ type_desc->u.side_string.unit_size, side_enum_get(type_desc->u.side_string.byte_order), NULL);
break;
+
+ /* Stack-copy compound types */
case SIDE_TYPE_STRUCT:
- tracer_print_struct(type_desc, item->u.side_static.side_struct);
+ tracer_print_struct(type_desc, side_ptr_get(item->u.side_static.side_struct));
break;
- case SIDE_TYPE_GATHER_STRUCT:
- (void) tracer_print_gather_struct(&type_desc->u.side_gather, item->u.side_static.side_struct_gather_ptr);
+ case SIDE_TYPE_VARIANT:
+ tracer_print_variant(type_desc, side_ptr_get(item->u.side_static.side_variant));
break;
- case SIDE_TYPE_GATHER_ARRAY:
- (void) tracer_print_gather_array(&type_desc->u.side_gather, item->u.side_static.side_array_gather_ptr);
+ case SIDE_TYPE_ARRAY:
+ tracer_print_array(type_desc, side_ptr_get(item->u.side_static.side_array));
break;
- case SIDE_TYPE_GATHER_VLA:
- (void) tracer_print_gather_vla(&type_desc->u.side_gather, item->u.side_static.side_vla_gather.ptr,
- item->u.side_static.side_vla_gather.length_ptr);
+ case SIDE_TYPE_VLA:
+ tracer_print_vla(type_desc, side_ptr_get(item->u.side_static.side_vla));
break;
+ case SIDE_TYPE_VLA_VISITOR:
+ tracer_print_vla_visitor(type_desc, side_ptr_get(item->u.side_static.side_vla_visitor));
+ break;
+
+ /* Stack-copy enumeration types */
+ case SIDE_TYPE_ENUM:
+ tracer_print_enum(type_desc, item);
+ break;
+ case SIDE_TYPE_ENUM_BITMAP:
+ tracer_print_enum_bitmap(type_desc, item);
+ break;
+
+ /* Gather basic types */
case SIDE_TYPE_GATHER_BOOL:
- (void) tracer_print_gather_bool_type(&type_desc->u.side_gather, item->u.side_static.side_bool_gather_ptr);
+ (void) tracer_print_gather_bool_type(&type_desc->u.side_gather, side_ptr_get(item->u.side_static.side_bool_gather_ptr));
+ break;
+ case SIDE_TYPE_GATHER_INTEGER:
+ (void) tracer_print_gather_integer_type(&type_desc->u.side_gather, side_ptr_get(item->u.side_static.side_integer_gather_ptr),
+ TRACER_DISPLAY_BASE_10);
break;
case SIDE_TYPE_GATHER_BYTE:
- (void) tracer_print_gather_byte_type(&type_desc->u.side_gather, item->u.side_static.side_byte_gather_ptr);
+ (void) tracer_print_gather_byte_type(&type_desc->u.side_gather, side_ptr_get(item->u.side_static.side_byte_gather_ptr));
break;
case SIDE_TYPE_GATHER_POINTER:
- (void) tracer_print_gather_integer_type(&type_desc->u.side_gather, item->u.side_static.side_integer_gather_ptr,
+ (void) tracer_print_gather_integer_type(&type_desc->u.side_gather, side_ptr_get(item->u.side_static.side_integer_gather_ptr),
TRACER_DISPLAY_BASE_16);
break;
- case SIDE_TYPE_GATHER_INTEGER:
- (void) tracer_print_gather_integer_type(&type_desc->u.side_gather, item->u.side_static.side_integer_gather_ptr,
- TRACER_DISPLAY_BASE_10);
- break;
case SIDE_TYPE_GATHER_FLOAT:
- (void) tracer_print_gather_float_type(&type_desc->u.side_gather, item->u.side_static.side_float_gather_ptr);
+ (void) tracer_print_gather_float_type(&type_desc->u.side_gather, side_ptr_get(item->u.side_static.side_float_gather_ptr));
break;
- case SIDE_TYPE_ARRAY:
- tracer_print_array(type_desc, item->u.side_static.side_array);
+ case SIDE_TYPE_GATHER_STRING:
+ (void) tracer_print_gather_string_type(&type_desc->u.side_gather, side_ptr_get(item->u.side_static.side_string_gather_ptr));
break;
- case SIDE_TYPE_VLA:
- tracer_print_vla(type_desc, item->u.side_static.side_vla);
+
+ /* Gather compound type */
+ case SIDE_TYPE_GATHER_STRUCT:
+ (void) tracer_print_gather_struct(&type_desc->u.side_gather, side_ptr_get(item->u.side_static.side_struct_gather_ptr));
break;
- case SIDE_TYPE_VLA_VISITOR:
- tracer_print_vla_visitor(type_desc, item->u.side_static.side_vla_app_visitor_ctx);
+ case SIDE_TYPE_GATHER_ARRAY:
+ (void) tracer_print_gather_array(&type_desc->u.side_gather, side_ptr_get(item->u.side_static.side_array_gather_ptr));
+ break;
+ case SIDE_TYPE_GATHER_VLA:
+ (void) tracer_print_gather_vla(&type_desc->u.side_gather, side_ptr_get(item->u.side_static.side_vla_gather.ptr),
+ side_ptr_get(item->u.side_static.side_vla_gather.length_ptr));
+ break;
+
+ /* Gather enumeration types */
+ case SIDE_TYPE_GATHER_ENUM:
+ (void) tracer_print_gather_enum_type(&type_desc->u.side_gather, side_ptr_get(item->u.side_static.side_integer_gather_ptr));
break;
- /* Dynamic types */
+ /* Dynamic basic types */
case SIDE_TYPE_DYNAMIC_NULL:
case SIDE_TYPE_DYNAMIC_BOOL:
case SIDE_TYPE_DYNAMIC_INTEGER:
case SIDE_TYPE_DYNAMIC_POINTER:
case SIDE_TYPE_DYNAMIC_FLOAT:
case SIDE_TYPE_DYNAMIC_STRING:
+
+ /* Dynamic compound types */
case SIDE_TYPE_DYNAMIC_STRUCT:
case SIDE_TYPE_DYNAMIC_STRUCT_VISITOR:
case SIDE_TYPE_DYNAMIC_VLA:
static
void tracer_print_field(const struct side_event_field *item_desc, const struct side_arg *item)
{
- printf("%s: ", item_desc->field_name);
+ printf("%s: ", side_ptr_get(item_desc->field_name));
tracer_print_type(&item_desc->side_type, item);
}
static
void tracer_print_struct(const struct side_type *type_desc, const struct side_arg_vec *side_arg_vec)
{
- const struct side_arg *sav = side_arg_vec->sav;
+ const struct side_arg *sav = side_ptr_get(side_arg_vec->sav);
+ const struct side_type_struct *side_struct = side_ptr_get(type_desc->u.side_struct);
uint32_t i, side_sav_len = side_arg_vec->len;
- if (type_desc->u.side_struct->nr_fields != side_sav_len) {
+ if (side_struct->nr_fields != side_sav_len) {
fprintf(stderr, "ERROR: number of fields mismatch between description and arguments of structure\n");
abort();
}
- print_attributes("attr", ":", type_desc->u.side_struct->attr, type_desc->u.side_struct->nr_attr);
- printf("%s", type_desc->u.side_struct->nr_attr ? ", " : "");
+ print_attributes("attr", ":", side_ptr_get(side_struct->attr), side_struct->nr_attr);
+ printf("%s", side_struct->nr_attr ? ", " : "");
printf("fields: { ");
for (i = 0; i < side_sav_len; i++) {
printf("%s", i ? ", " : "");
- tracer_print_field(&type_desc->u.side_struct->fields[i], &sav[i]);
+ tracer_print_field(&side_ptr_get(side_struct->fields)[i], &sav[i]);
}
printf(" }");
}
+static
+void tracer_print_variant(const struct side_type *type_desc, const struct side_arg_variant *side_arg_variant)
+{
+ const struct side_type_variant *side_type_variant = side_ptr_get(type_desc->u.side_variant);
+ const struct side_type *selector_type = &side_type_variant->selector;
+ union int_value v;
+ uint32_t i;
+
+ if (side_enum_get(selector_type->type) != side_enum_get(side_arg_variant->selector.type)) {
+ fprintf(stderr, "ERROR: Unexpected variant selector type\n");
+ abort();
+ }
+ switch (side_enum_get(selector_type->type)) {
+ case SIDE_TYPE_U8:
+ case SIDE_TYPE_U16:
+ case SIDE_TYPE_U32:
+ case SIDE_TYPE_U64:
+ case SIDE_TYPE_U128:
+ case SIDE_TYPE_S8:
+ case SIDE_TYPE_S16:
+ case SIDE_TYPE_S32:
+ case SIDE_TYPE_S64:
+ case SIDE_TYPE_S128:
+ break;
+ default:
+ fprintf(stderr, "ERROR: Expecting integer variant selector type\n");
+ abort();
+ }
+ v = tracer_load_integer_value(&selector_type->u.side_integer,
+ &side_arg_variant->selector.u.side_static.integer_value, 0, NULL);
+ side_check_value_u64(v);
+ for (i = 0; i < side_type_variant->nr_options; i++) {
+ const struct side_variant_option *option = &side_ptr_get(side_type_variant->options)[i];
+
+ if (v.s[SIDE_INTEGER128_SPLIT_LOW] >= option->range_begin && v.s[SIDE_INTEGER128_SPLIT_LOW] <= option->range_end) {
+ tracer_print_type(&option->side_type, &side_arg_variant->option);
+ return;
+ }
+ }
+ fprintf(stderr, "ERROR: Variant selector value unknown %" PRId64 "\n", v.s[SIDE_INTEGER128_SPLIT_LOW]);
+ abort();
+}
+
static
void tracer_print_array(const struct side_type *type_desc, const struct side_arg_vec *side_arg_vec)
{
- const struct side_arg *sav = side_arg_vec->sav;
+ const struct side_arg *sav = side_ptr_get(side_arg_vec->sav);
uint32_t i, side_sav_len = side_arg_vec->len;
if (type_desc->u.side_array.length != side_sav_len) {
fprintf(stderr, "ERROR: length mismatch between description and arguments of array\n");
abort();
}
- print_attributes("attr", ":", type_desc->u.side_array.attr, type_desc->u.side_array.nr_attr);
+ print_attributes("attr", ":", side_ptr_get(type_desc->u.side_array.attr), type_desc->u.side_array.nr_attr);
printf("%s", type_desc->u.side_array.nr_attr ? ", " : "");
printf("elements: ");
printf("[ ");
for (i = 0; i < side_sav_len; i++) {
printf("%s", i ? ", " : "");
- tracer_print_type(type_desc->u.side_array.elem_type, &sav[i]);
+ tracer_print_type(side_ptr_get(type_desc->u.side_array.elem_type), &sav[i]);
}
printf(" ]");
}
static
void tracer_print_vla(const struct side_type *type_desc, const struct side_arg_vec *side_arg_vec)
{
- const struct side_arg *sav = side_arg_vec->sav;
+ const struct side_arg *sav = side_ptr_get(side_arg_vec->sav);
uint32_t i, side_sav_len = side_arg_vec->len;
- print_attributes("attr", ":", type_desc->u.side_vla.attr, type_desc->u.side_vla.nr_attr);
+ print_attributes("attr", ":", side_ptr_get(type_desc->u.side_vla.attr), type_desc->u.side_vla.nr_attr);
printf("%s", type_desc->u.side_vla.nr_attr ? ", " : "");
printf("elements: ");
printf("[ ");
for (i = 0; i < side_sav_len; i++) {
printf("%s", i ? ", " : "");
- tracer_print_type(type_desc->u.side_vla.elem_type, &sav[i]);
+ tracer_print_type(side_ptr_get(type_desc->u.side_vla.elem_type), &sav[i]);
}
printf(" ]");
}
return ptr;
case SIDE_TYPE_GATHER_ACCESS_POINTER:
/* Dereference pointer */
- memcpy(&ptr, ptr, sizeof(ptr));
+ memcpy(&ptr, ptr, sizeof(const char *));
return ptr;
default:
abort();
}
static
-uint64_t tracer_load_gather_integer_type(const struct side_type_gather *type_gather, const void *_ptr)
+union int_value tracer_load_gather_integer_value(const struct side_type_gather_integer *side_integer,
+ const void *_ptr)
{
enum side_type_gather_access_mode access_mode =
- (enum side_type_gather_access_mode) type_gather->u.side_integer.access_mode;
- uint32_t integer_size_bytes = type_gather->u.side_integer.type.integer_size;
+ (enum side_type_gather_access_mode) side_integer->access_mode;
+ uint32_t integer_size_bytes = side_integer->type.integer_size;
const char *ptr = (const char *) _ptr;
union side_integer_value value;
- ptr = tracer_gather_access(access_mode, ptr + type_gather->u.side_integer.offset);
+ ptr = tracer_gather_access(access_mode, ptr + side_integer->offset);
memcpy(&value, ptr, integer_size_bytes);
- switch (type_gather->u.side_integer.type.integer_size) {
- case 1:
- return (uint64_t) value.side_u8;
- case 2:
- return (uint64_t) value.side_u16;
- case 4:
- return (uint64_t) value.side_u32;
- case 8:
- return (uint64_t) value.side_u64;
- default:
- abort();
- }
+ return tracer_load_integer_value(&side_integer->type, &value,
+ side_integer->offset_bits, NULL);
}
static
ptr = tracer_gather_access(access_mode, ptr + type_gather->u.side_byte.offset);
memcpy(&value, ptr, 1);
- tracer_print_type_header(":", type_gather->u.side_byte.type.attr,
+ tracer_print_type_header(":", side_ptr_get(type_gather->u.side_byte.type.attr),
type_gather->u.side_byte.type.nr_attr);
printf("0x%" PRIx8, value);
return tracer_gather_size(access_mode, 1);
case 2:
case 4:
case 8:
+ case 16:
break;
default:
abort();
return tracer_gather_size(access_mode, float_size_bytes);
}
+static
+uint32_t tracer_print_gather_string_type(const struct side_type_gather *type_gather, const void *_ptr)
+{
+ enum side_type_gather_access_mode access_mode =
+ (enum side_type_gather_access_mode) type_gather->u.side_string.access_mode;
+ const char *ptr = (const char *) _ptr;
+ size_t string_len;
+
+ ptr = tracer_gather_access(access_mode, ptr + type_gather->u.side_string.offset);
+ tracer_print_type_header(":", side_ptr_get(type_gather->u.side_string.type.attr),
+ type_gather->u.side_string.type.nr_attr);
+ if (ptr) {
+ tracer_print_string(ptr, type_gather->u.side_string.type.unit_size,
+ side_enum_get(type_gather->u.side_string.type.byte_order), &string_len);
+ } else {
+ printf("<NULL>");
+ string_len = type_gather->u.side_string.type.unit_size;
+ }
+ return tracer_gather_size(access_mode, string_len);
+}
+
static
uint32_t tracer_print_gather_type(const struct side_type *type_desc, const void *ptr)
{
uint32_t len;
printf("{ ");
- switch (type_desc->type) {
+ switch (side_enum_get(type_desc->type)) {
+ /* Gather basic types */
case SIDE_TYPE_GATHER_BOOL:
len = tracer_print_gather_bool_type(&type_desc->u.side_gather, ptr);
break;
+ case SIDE_TYPE_GATHER_INTEGER:
+ len = tracer_print_gather_integer_type(&type_desc->u.side_gather, ptr,
+ TRACER_DISPLAY_BASE_10);
+ break;
case SIDE_TYPE_GATHER_BYTE:
len = tracer_print_gather_byte_type(&type_desc->u.side_gather, ptr);
break;
len = tracer_print_gather_integer_type(&type_desc->u.side_gather, ptr,
TRACER_DISPLAY_BASE_16);
break;
- case SIDE_TYPE_GATHER_INTEGER:
- len = tracer_print_gather_integer_type(&type_desc->u.side_gather, ptr,
- TRACER_DISPLAY_BASE_10);
- break;
case SIDE_TYPE_GATHER_FLOAT:
len = tracer_print_gather_float_type(&type_desc->u.side_gather, ptr);
break;
+ case SIDE_TYPE_GATHER_STRING:
+ len = tracer_print_gather_string_type(&type_desc->u.side_gather, ptr);
+ break;
+
+ /* Gather enum types */
+ case SIDE_TYPE_GATHER_ENUM:
+ len = tracer_print_gather_enum_type(&type_desc->u.side_gather, ptr);
+ break;
+
+ /* Gather compound types */
case SIDE_TYPE_GATHER_STRUCT:
len = tracer_print_gather_struct(&type_desc->u.side_gather, ptr);
break;
return len;
}
+static
+uint32_t tracer_print_gather_enum_type(const struct side_type_gather *type_gather, const void *_ptr)
+{
+ const struct side_enum_mappings *mappings = side_ptr_get(type_gather->u.side_enum.mappings);
+ const struct side_type *enum_elem_type = side_ptr_get(type_gather->u.side_enum.elem_type);
+ const struct side_type_gather_integer *side_integer = &enum_elem_type->u.side_gather.u.side_integer;
+ enum side_type_gather_access_mode access_mode =
+ (enum side_type_gather_access_mode) side_integer->access_mode;
+ uint32_t integer_size_bytes = side_integer->type.integer_size;
+ const char *ptr = (const char *) _ptr;
+ union side_integer_value value;
+ union int_value v;
+
+ switch (integer_size_bytes) {
+ case 1:
+ case 2:
+ case 4:
+ case 8:
+ case 16:
+ break;
+ default:
+ abort();
+ }
+ ptr = tracer_gather_access(access_mode, ptr + side_integer->offset);
+ memcpy(&value, ptr, integer_size_bytes);
+ v = tracer_load_gather_integer_value(side_integer, &value);
+ print_attributes("attr", ":", side_ptr_get(mappings->attr), mappings->nr_attr);
+ printf("%s", mappings->nr_attr ? ", " : "");
+ tracer_print_gather_type(enum_elem_type, ptr);
+ print_enum_labels(mappings, v);
+ return tracer_gather_size(access_mode, integer_size_bytes);
+}
+
static
void tracer_print_gather_field(const struct side_event_field *field, const void *ptr)
{
- printf("%s: ", field->field_name);
+ printf("%s: ", side_ptr_get(field->field_name));
(void) tracer_print_gather_type(&field->side_type, ptr);
}
{
enum side_type_gather_access_mode access_mode =
(enum side_type_gather_access_mode) type_gather->u.side_struct.access_mode;
+ const struct side_type_struct *side_struct = side_ptr_get(type_gather->u.side_struct.type);
const char *ptr = (const char *) _ptr;
uint32_t i;
ptr = tracer_gather_access(access_mode, ptr + type_gather->u.side_struct.offset);
- print_attributes("attr", ":", type_gather->u.side_struct.type->attr, type_gather->u.side_struct.type->nr_attr);
- printf("%s", type_gather->u.side_struct.type->nr_attr ? ", " : "");
+ print_attributes("attr", ":", side_ptr_get(side_struct->attr), side_struct->nr_attr);
+ printf("%s", side_struct->nr_attr ? ", " : "");
printf("fields: { ");
- for (i = 0; i < type_gather->u.side_struct.type->nr_fields; i++) {
+ for (i = 0; i < side_struct->nr_fields; i++) {
printf("%s", i ? ", " : "");
- tracer_print_gather_field(&type_gather->u.side_struct.type->fields[i], ptr);
+ tracer_print_gather_field(&side_ptr_get(side_struct->fields)[i], ptr);
}
printf(" }");
return tracer_gather_size(access_mode, type_gather->u.side_struct.size);
ptr = tracer_gather_access(access_mode, ptr + type_gather->u.side_array.offset);
orig_ptr = ptr;
- print_attributes("attr", ":", type_gather->u.side_array.type.attr, type_gather->u.side_array.type.nr_attr);
+ print_attributes("attr", ":", side_ptr_get(type_gather->u.side_array.type.attr), type_gather->u.side_array.type.nr_attr);
printf("%s", type_gather->u.side_array.type.nr_attr ? ", " : "");
printf("elements: ");
printf("[ ");
for (i = 0; i < type_gather->u.side_array.type.length; i++) {
- switch (type_gather->u.side_array.type.elem_type->type) {
+ const struct side_type *elem_type = side_ptr_get(type_gather->u.side_array.type.elem_type);
+
+ switch (side_enum_get(elem_type->type)) {
case SIDE_TYPE_GATHER_VLA:
fprintf(stderr, "<gather VLA only supported within gather structures>\n");
abort();
break;
}
printf("%s", i ? ", " : "");
- ptr += tracer_print_gather_type(type_gather->u.side_array.type.elem_type, ptr);
+ ptr += tracer_print_gather_type(elem_type, ptr);
}
printf(" ]");
return tracer_gather_size(access_mode, ptr - orig_ptr);
{
enum side_type_gather_access_mode access_mode =
(enum side_type_gather_access_mode) type_gather->u.side_vla.access_mode;
+ const struct side_type *length_type = side_ptr_get(type_gather->u.side_vla.length_type);
const char *ptr = (const char *) _ptr, *orig_ptr;
const char *length_ptr = (const char *) _length_ptr;
+ union int_value v = {};
uint32_t i, length;
/* Access length */
- switch (type_gather->u.side_vla.length_type->type) {
+ switch (side_enum_get(length_type->type)) {
case SIDE_TYPE_GATHER_INTEGER:
break;
default:
fprintf(stderr, "<gather VLA expects integer gather length type>\n");
abort();
}
- length = (uint32_t) tracer_load_gather_integer_type(&type_gather->u.side_vla.length_type->u.side_gather, length_ptr);
+ v = tracer_load_gather_integer_value(&length_type->u.side_gather.u.side_integer,
+ length_ptr);
+ if (v.u[SIDE_INTEGER128_SPLIT_HIGH] || v.u[SIDE_INTEGER128_SPLIT_LOW] > UINT32_MAX) {
+ fprintf(stderr, "Unexpected vla length value\n");
+ abort();
+ }
+ length = (uint32_t) v.u[SIDE_INTEGER128_SPLIT_LOW];
ptr = tracer_gather_access(access_mode, ptr + type_gather->u.side_vla.offset);
orig_ptr = ptr;
- print_attributes("attr", ":", type_gather->u.side_vla.type.attr, type_gather->u.side_vla.type.nr_attr);
+ print_attributes("attr", ":", side_ptr_get(type_gather->u.side_vla.type.attr), type_gather->u.side_vla.type.nr_attr);
printf("%s", type_gather->u.side_vla.type.nr_attr ? ", " : "");
printf("elements: ");
printf("[ ");
for (i = 0; i < length; i++) {
- switch (type_gather->u.side_vla.type.elem_type->type) {
+ const struct side_type *elem_type = side_ptr_get(type_gather->u.side_vla.type.elem_type);
+
+ switch (side_enum_get(elem_type->type)) {
case SIDE_TYPE_GATHER_VLA:
fprintf(stderr, "<gather VLA only supported within gather structures>\n");
abort();
break;
}
printf("%s", i ? ", " : "");
- ptr += tracer_print_gather_type(type_gather->u.side_vla.type.elem_type, ptr);
+ ptr += tracer_print_gather_type(elem_type, ptr);
}
printf(" ]");
return tracer_gather_size(access_mode, ptr - orig_ptr);
}
static
-void tracer_print_vla_visitor(const struct side_type *type_desc, void *app_ctx)
+void tracer_print_vla_visitor(const struct side_type *type_desc, struct side_arg_vla_visitor *vla_visitor)
{
+ void *app_ctx;
enum side_visitor_status status;
struct tracer_visitor_priv tracer_priv = {
- .elem_type = type_desc->u.side_vla_visitor.elem_type,
+ .elem_type = side_ptr_get(type_desc->u.side_vla_visitor.elem_type),
.i = 0,
};
const struct side_tracer_visitor_ctx tracer_ctx = {
.write_elem = tracer_write_elem_cb,
.priv = &tracer_priv,
};
+ side_visitor_func func;
- print_attributes("attr", ":", type_desc->u.side_vla_visitor.attr, type_desc->u.side_vla_visitor.nr_attr);
+ if (!vla_visitor)
+ abort();
+ app_ctx = side_ptr_get(vla_visitor->app_ctx);
+ print_attributes("attr", ":", side_ptr_get(type_desc->u.side_vla_visitor.attr), type_desc->u.side_vla_visitor.nr_attr);
printf("%s", type_desc->u.side_vla_visitor.nr_attr ? ", " : "");
printf("elements: ");
printf("[ ");
- status = type_desc->u.side_vla_visitor.visitor(&tracer_ctx, app_ctx);
+ func = side_ptr_get(type_desc->u.side_vla_visitor.visitor);
+ status = func(&tracer_ctx, app_ctx);
switch (status) {
case SIDE_VISITOR_STATUS_OK:
break;
static
void tracer_print_dynamic_struct(const struct side_arg_dynamic_struct *dynamic_struct)
{
- const struct side_arg_dynamic_field *fields = dynamic_struct->fields;
+ const struct side_arg_dynamic_field *fields = side_ptr_get(dynamic_struct->fields);
uint32_t i, len = dynamic_struct->len;
- print_attributes("attr", "::", dynamic_struct->attr, dynamic_struct->nr_attr);
+ print_attributes("attr", "::", side_ptr_get(dynamic_struct->attr), dynamic_struct->nr_attr);
printf("%s", dynamic_struct->nr_attr ? ", " : "");
printf("fields:: ");
printf("[ ");
for (i = 0; i < len; i++) {
printf("%s", i ? ", " : "");
- printf("%s:: ", fields[i].field_name);
+ printf("%s:: ", side_ptr_get(fields[i].field_name));
tracer_print_dynamic(&fields[i].elem);
}
printf(" ]");
(struct tracer_dynamic_struct_visitor_priv *) tracer_ctx->priv;
printf("%s", tracer_priv->i++ ? ", " : "");
- printf("%s:: ", dynamic_field->field_name);
+ printf("%s:: ", side_ptr_get(dynamic_field->field_name));
tracer_print_dynamic(&dynamic_field->elem);
return SIDE_VISITOR_STATUS_OK;
}
static
void tracer_print_dynamic_struct_visitor(const struct side_arg *item)
{
- enum side_visitor_status status;
+ struct side_arg_dynamic_struct_visitor *dynamic_struct_visitor;
struct tracer_dynamic_struct_visitor_priv tracer_priv = {
.i = 0,
};
.write_field = tracer_dynamic_struct_write_elem_cb,
.priv = &tracer_priv,
};
- void *app_ctx = item->u.side_dynamic.side_dynamic_struct_visitor.app_ctx;
+ enum side_visitor_status status;
+ void *app_ctx;
- print_attributes("attr", "::", item->u.side_dynamic.side_dynamic_struct_visitor.attr, item->u.side_dynamic.side_dynamic_struct_visitor.nr_attr);
- printf("%s", item->u.side_dynamic.side_dynamic_struct_visitor.nr_attr ? ", " : "");
+ dynamic_struct_visitor = side_ptr_get(item->u.side_dynamic.side_dynamic_struct_visitor);
+ if (!dynamic_struct_visitor)
+ abort();
+ app_ctx = side_ptr_get(dynamic_struct_visitor->app_ctx);
+ print_attributes("attr", "::", side_ptr_get(dynamic_struct_visitor->attr), dynamic_struct_visitor->nr_attr);
+ printf("%s", dynamic_struct_visitor->nr_attr ? ", " : "");
printf("fields:: ");
printf("[ ");
- status = item->u.side_dynamic.side_dynamic_struct_visitor.visitor(&tracer_ctx, app_ctx);
+ status = side_ptr_get(dynamic_struct_visitor->visitor)(&tracer_ctx, app_ctx);
switch (status) {
case SIDE_VISITOR_STATUS_OK:
break;
static
void tracer_print_dynamic_vla(const struct side_arg_dynamic_vla *vla)
{
- const struct side_arg *sav = vla->sav;
+ const struct side_arg *sav = side_ptr_get(vla->sav);
uint32_t i, side_sav_len = vla->len;
- print_attributes("attr", "::", vla->attr, vla->nr_attr);
+ print_attributes("attr", "::", side_ptr_get(vla->attr), vla->nr_attr);
printf("%s", vla->nr_attr ? ", " : "");
printf("elements:: ");
printf("[ ");
static
void tracer_print_dynamic_vla_visitor(const struct side_arg *item)
{
- enum side_visitor_status status;
+ struct side_arg_dynamic_vla_visitor *dynamic_vla_visitor;
struct tracer_dynamic_vla_visitor_priv tracer_priv = {
.i = 0,
};
.write_elem = tracer_dynamic_vla_write_elem_cb,
.priv = &tracer_priv,
};
- void *app_ctx = item->u.side_dynamic.side_dynamic_vla_visitor.app_ctx;
+ enum side_visitor_status status;
+ void *app_ctx;
- print_attributes("attr", "::", item->u.side_dynamic.side_dynamic_vla_visitor.attr, item->u.side_dynamic.side_dynamic_vla_visitor.nr_attr);
- printf("%s", item->u.side_dynamic.side_dynamic_vla_visitor.nr_attr ? ", " : "");
+ dynamic_vla_visitor = side_ptr_get(item->u.side_dynamic.side_dynamic_vla_visitor);
+ if (!dynamic_vla_visitor)
+ abort();
+ app_ctx = side_ptr_get(dynamic_vla_visitor->app_ctx);
+ print_attributes("attr", "::", side_ptr_get(dynamic_vla_visitor->attr), dynamic_vla_visitor->nr_attr);
+ printf("%s", dynamic_vla_visitor->nr_attr ? ", " : "");
printf("elements:: ");
printf("[ ");
- status = item->u.side_dynamic.side_dynamic_vla_visitor.visitor(&tracer_ctx, app_ctx);
+ status = side_ptr_get(dynamic_vla_visitor->visitor)(&tracer_ctx, app_ctx);
switch (status) {
case SIDE_VISITOR_STATUS_OK:
break;
void tracer_print_dynamic(const struct side_arg *item)
{
printf("{ ");
- switch (item->type) {
+ switch (side_enum_get(item->type)) {
+ /* Dynamic basic types */
case SIDE_TYPE_DYNAMIC_NULL:
- tracer_print_type_header("::", item->u.side_dynamic.side_null.attr, item->u.side_dynamic.side_null.nr_attr);
+ tracer_print_type_header("::", side_ptr_get(item->u.side_dynamic.side_null.attr),
+ item->u.side_dynamic.side_null.nr_attr);
printf("<NULL TYPE>");
break;
-
case SIDE_TYPE_DYNAMIC_BOOL:
tracer_print_type_bool("::", &item->u.side_dynamic.side_bool.type, &item->u.side_dynamic.side_bool.value, 0);
break;
-
case SIDE_TYPE_DYNAMIC_INTEGER:
tracer_print_type_integer("::", &item->u.side_dynamic.side_integer.type, &item->u.side_dynamic.side_integer.value, 0,
TRACER_DISPLAY_BASE_10);
break;
case SIDE_TYPE_DYNAMIC_BYTE:
- tracer_print_type_header("::", item->u.side_dynamic.side_byte.type.attr, item->u.side_dynamic.side_byte.type.nr_attr);
+ tracer_print_type_header("::", side_ptr_get(item->u.side_dynamic.side_byte.type.attr), item->u.side_dynamic.side_byte.type.nr_attr);
printf("0x%" PRIx8, item->u.side_dynamic.side_byte.value);
break;
-
case SIDE_TYPE_DYNAMIC_POINTER:
tracer_print_type_integer("::", &item->u.side_dynamic.side_integer.type, &item->u.side_dynamic.side_integer.value, 0,
TRACER_DISPLAY_BASE_16);
break;
-
case SIDE_TYPE_DYNAMIC_FLOAT:
tracer_print_type_float("::", &item->u.side_dynamic.side_float.type,
&item->u.side_dynamic.side_float.value);
break;
-
case SIDE_TYPE_DYNAMIC_STRING:
- tracer_print_type_header("::", item->u.side_dynamic.side_string.type.attr, item->u.side_dynamic.side_string.type.nr_attr);
- printf("\"%s\"", (const char *)(uintptr_t) item->u.side_dynamic.side_string.value);
+ tracer_print_type_header("::", side_ptr_get(item->u.side_dynamic.side_string.type.attr), item->u.side_dynamic.side_string.type.nr_attr);
+ tracer_print_string((const char *)(uintptr_t) item->u.side_dynamic.side_string.value,
+ item->u.side_dynamic.side_string.type.unit_size,
+ side_enum_get(item->u.side_dynamic.side_string.type.byte_order), NULL);
break;
+
+ /* Dynamic compound types */
case SIDE_TYPE_DYNAMIC_STRUCT:
- tracer_print_dynamic_struct(item->u.side_dynamic.side_dynamic_struct);
+ tracer_print_dynamic_struct(side_ptr_get(item->u.side_dynamic.side_dynamic_struct));
break;
case SIDE_TYPE_DYNAMIC_STRUCT_VISITOR:
tracer_print_dynamic_struct_visitor(item);
break;
case SIDE_TYPE_DYNAMIC_VLA:
- tracer_print_dynamic_vla(item->u.side_dynamic.side_dynamic_vla);
+ tracer_print_dynamic_vla(side_ptr_get(item->u.side_dynamic.side_dynamic_vla));
break;
case SIDE_TYPE_DYNAMIC_VLA_VISITOR:
tracer_print_dynamic_vla_visitor(item);
const struct side_arg_vec *side_arg_vec,
uint32_t *nr_items)
{
- const struct side_arg *sav = side_arg_vec->sav;
+ const struct side_arg *sav = side_ptr_get(side_arg_vec->sav);
uint32_t i, side_sav_len = side_arg_vec->len;
- printf("provider: %s, event: %s", desc->provider_name, desc->event_name);
+ printf("provider: %s, event: %s", side_ptr_get(desc->provider_name), side_ptr_get(desc->event_name));
if (desc->nr_fields != side_sav_len) {
fprintf(stderr, "ERROR: number of fields mismatch between description and arguments\n");
abort();
}
- print_attributes(", attr", ":", desc->attr, desc->nr_attr);
+ print_attributes(", attr", ":", side_ptr_get(desc->attr), desc->nr_attr);
printf("%s", side_sav_len ? ", fields: [ " : "");
for (i = 0; i < side_sav_len; i++) {
printf("%s", i ? ", " : "");
- tracer_print_field(&desc->fields[i], &sav[i]);
+ tracer_print_field(&side_ptr_get(desc->fields)[i], &sav[i]);
}
if (nr_items)
*nr_items = i;
printf(" ]");
}
+static
void tracer_call(const struct side_event_description *desc,
const struct side_arg_vec *side_arg_vec,
void *priv __attribute__((unused)))
printf("\n");
}
+static
void tracer_call_variadic(const struct side_event_description *desc,
const struct side_arg_vec *side_arg_vec,
const struct side_arg_dynamic_struct *var_struct,
fprintf(stderr, "ERROR: unexpected non-variadic event description\n");
abort();
}
- print_attributes(", attr ", "::", var_struct->attr, var_struct->nr_attr);
+ print_attributes(", attr ", "::", side_ptr_get(var_struct->attr), var_struct->nr_attr);
printf("%s", var_struct_len ? ", fields:: [ " : "");
for (i = 0; i < var_struct_len; i++, nr_fields++) {
printf("%s", i ? ", " : "");
- printf("%s:: ", var_struct->fields[i].field_name);
- tracer_print_dynamic(&var_struct->fields[i].elem);
+ printf("%s:: ", side_ptr_get(side_ptr_get(var_struct->fields)[i].field_name));
+ tracer_print_dynamic(&side_ptr_get(var_struct->fields)[i].elem);
}
if (i)
printf(" ]");
printf("\n");
}
+static
void tracer_event_notification(enum side_tracer_notification notif,
- struct side_event_description **events, uint32_t nr_events, void *priv)
+ struct side_event_description **events, uint32_t nr_events,
+ void *priv __attribute__((unused)))
{
uint32_t i;
int ret;
/* Skip NULL pointers */
if (!event)
continue;
+ if (event->version != SIDE_EVENT_DESCRIPTION_ABI_VERSION) {
+ printf("Error: event description ABI version (%u) does not match the version supported by the tracer (%u)\n",
+ event->version, SIDE_EVENT_DESCRIPTION_ABI_VERSION);
+ return;
+ }
printf("provider: %s, event: %s\n",
- event->provider_name, event->event_name);
- if (notif == SIDE_TRACER_NOTIFICATION_INSERT_EVENTS) {
+ side_ptr_get(event->provider_name), side_ptr_get(event->event_name));
+ if (event->struct_size != side_offsetofend(struct side_event_description, side_event_description_orig_abi_last)) {
+ printf("Warning: Event %s.%s description contains fields unknown to the tracer\n",
+ side_ptr_get(event->provider_name), side_ptr_get(event->event_name));
+ }
+ if (notif == SIDE_TRACER_NOTIFICATION_INSERT_EVENTS) {
+ if (event->nr_side_type_label > _NR_SIDE_TYPE_LABEL) {
+ printf("Warning: event %s:%s may contain unknown field types (%u unknown types)\n",
+ side_ptr_get(event->provider_name), side_ptr_get(event->event_name),
+ event->nr_side_type_label - _NR_SIDE_TYPE_LABEL);
+ }
+ if (event->nr_side_attr_type > _NR_SIDE_ATTR_TYPE) {
+ printf("Warning: event %s:%s may contain unknown attribute types (%u unknown types)\n",
+ side_ptr_get(event->provider_name), side_ptr_get(event->event_name),
+ event->nr_side_attr_type - _NR_SIDE_ATTR_TYPE);
+ }
if (event->flags & SIDE_EVENT_FLAG_VARIADIC) {
ret = side_tracer_callback_variadic_register(event, tracer_call_variadic, NULL);
if (ret)