#define dprintf(...)
#endif
-
/* Code printing */
void print_tabs(unsigned int tabs, FILE *fd)
fprintf(fd, "\t");
}
-/* Type size checking */
-/* Uses #error in the generated code to signal error and stop the compiler */
-int print_check(int fd);
-
-
/* print type.
*
* Copied from construct_types_and_fields in LTTV facility.c */
}
+/* Does the type has a fixed size ? (as know from the compiler)
+ *
+ * 1 : fixed size
+ * 0 : variable length
+ */
+int has_type_fixed_size(type_descriptor_t *td)
+{
+ switch(td->type) {
+ case INT_FIXED:
+ case UINT_FIXED:
+ case CHAR:
+ case UCHAR:
+ case SHORT:
+ case USHORT:
+ case INT:
+ case UINT:
+ case FLOAT:
+ case POINTER:
+ case LONG:
+ case ULONG:
+ case SIZE_T:
+ case SSIZE_T:
+ case OFF_T:
+ case ENUM:
+ case UNION: /* The union must have fixed size children. Must be checked by
+ the parser */
+ return 1;
+ break;
+ case STRING:
+ case SEQUENCE:
+ return 0;
+ break;
+ case STRUCT:
+ {
+ int has_type_fixed = 0;
+ for(unsigned int i=0;i<td->fields.position;i++){
+ field_t *field = (field_t*)(td->fields.array[i]);
+ type_descriptor_t *type = field->type;
+
+ has_type_fixed = has_type_fixed_size(type);
+ if(!has_type_fixed) return 0;
+ }
+ return 1;
+ }
+ break;
+ case ARRAY:
+ assert(td->size >= 0);
+ return has_type_fixed_size(((field_t*)td->fields.array[0])->type);
+ break;
+ case NONE:
+ printf("There is a type defined to NONE : bad.\n");
+ assert(0);
+ break;
+ }
+ return 0; //make gcc happy.
+}
+
+
+
+
+
/* print type declaration.
*
* Copied from construct_types_and_fields in LTTV facility.c */
case ARRAY:
dprintf("%s\n", basename);
assert(td->size >= 0);
- if(td->nested_type->type_name == NULL) {
+ if(((field_t*)td->fields.array[0])->type->type_name == NULL) {
/* Not a named nested type : we must print its declaration first */
- if(print_type_declaration(td->nested_type,
+ if(print_type_declaration(((field_t*)td->fields.array[0])->type,
fd, 0, basename, "")) return 1;
}
- fprintf(fd, "#define LTTNG_ARRAY_SIZE_%s %llu\n", basename,
+ fprintf(fd, "#define LTTNG_ARRAY_SIZE_%s %zu\n", basename,
td->size);
fprintf(fd, "typedef ");
- if(print_type(td->nested_type, fd, tabs, basename, "")) return 1;
+ if(print_type(((field_t*)td->fields.array[0])->type,
+ fd, tabs, basename, "")) return 1;
fprintf(fd, " lttng_array_%s[LTTNG_ARRAY_SIZE_%s];\n", basename,
basename);
fprintf(fd, "\n");
break;
case SEQUENCE:
- if(td->nested_type->type_name == NULL) {
+ /* We assume that the sequence length type does not need to be declared.
+ */
+ if(((field_t*)td->fields.array[1])->type->type_name == NULL) {
/* Not a named nested type : we must print its declaration first */
- if(print_type_declaration(td->nested_type,
+ if(print_type_declaration(((field_t*)td->fields.array[1])->type,
fd, 0, basename, "")) return 1;
}
fprintf(fd, "typedef struct lttng_sequence_%s lttng_sequence_%s;\n",
fprintf(fd, "struct lttng_sequence_%s", basename);
fprintf(fd, " {\n");
print_tabs(1, fd);
- fprintf(fd, "unsigned int len;\n");
+ if(print_type(((field_t*)td->fields.array[0])->type,
+ fd, tabs, basename, "")) return 1;
+ fprintf(fd, "len;\n");
print_tabs(1, fd);
- if(print_type(td->nested_type, fd, tabs, basename, "")) return 1;
+ if(print_type(((field_t*)td->fields.array[1])->type,
+ fd, tabs, basename, "")) return 1;
fprintf(fd, " *array;\n");
fprintf(fd, "};\n");
fprintf(fd, "\n");
return 0;
}
+
+/* print type alignment.
+ *
+ * Copied from construct_types_and_fields in LTTV facility.c
+ *
+ * basename is the name which identifies the type (along with a prefix
+ * (possibly)). */
+
+int print_type_alignment(type_descriptor_t * td, FILE *fd, unsigned int tabs,
+ char *nest_name, char *field_name)
+{
+ char basename[PATH_MAX];
+ unsigned int basename_len = 0;
+
+ strncpy(basename, nest_name, PATH_MAX);
+ basename_len = strlen(basename);
+
+ /* For a named type, we use the type_name directly */
+ if(td->type_name != NULL) {
+ strncpy(basename, td->type_name, PATH_MAX);
+ basename_len = strlen(basename);
+ } else {
+ /* For a unnamed type, there must be a field name, except for
+ * the array. */
+ if((basename_len != 0)
+ && (basename[basename_len-1] != '_'
+ && field_name != NULL
+ && (field_name[0] != '\0'))) {
+ strncat(basename, "_", PATH_MAX - basename_len);
+ basename_len = strlen(basename);
+ }
+ if(field_name != NULL)
+ strncat(basename, field_name, PATH_MAX - basename_len);
+ }
+
+ switch(td->type) {
+ case INT_FIXED:
+ case UINT_FIXED:
+ case CHAR:
+ case UCHAR:
+ case SHORT:
+ case USHORT:
+ case INT:
+ case UINT:
+ case FLOAT:
+ case POINTER:
+ case LONG:
+ case ULONG:
+ case SIZE_T:
+ case SSIZE_T:
+ case OFF_T:
+ case ENUM:
+ fprintf(fd, "sizeof(");
+ if(print_type(td, fd, 0, basename, "")) return 1;
+ fprintf(fd, ")");
+ break;
+ case STRING:
+ fprintf(fd, "sizeof(char)");
+ break;
+ case SEQUENCE:
+ fprintf(fd, "lttng_get_alignment_sequence_%s(&obj->%s)", basename,
+ field_name);
+ break;
+ case STRUCT:
+ fprintf(fd, "lttng_get_alignment_struct_%s(&obj->%s)", basename,
+ field_name);
+ break;
+ case UNION:
+ fprintf(fd, "lttng_get_alignment_union_%s(&obj->%s)", basename,
+ field_name);
+ break;
+ case ARRAY:
+ fprintf(fd, "lttng_get_alignment_array_%s(obj->%s)", basename,
+ field_name);
+ break;
+ case NONE:
+ printf("error : type NONE unexpected\n");
+ return 1;
+ break;
+ }
+
+ return 0;
+}
+
+/* print type write.
+ *
+ * Copied from construct_types_and_fields in LTTV facility.c
+ *
+ * basename is the name which identifies the type (along with a prefix
+ * (possibly)). */
+
+int print_type_write(type_descriptor_t * td, FILE *fd, unsigned int tabs,
+ char *nest_name, char *field_name)
+{
+ char basename[PATH_MAX];
+ unsigned int basename_len = 0;
+
+ strncpy(basename, nest_name, PATH_MAX);
+ basename_len = strlen(basename);
+
+ /* For a named type, we use the type_name directly */
+ if(td->type_name != NULL) {
+ strncpy(basename, td->type_name, PATH_MAX);
+ basename_len = strlen(basename);
+ } else {
+ /* For a unnamed type, there must be a field name, except for
+ * the array. */
+ if((basename_len != 0)
+ && (basename[basename_len-1] != '_'
+ && (field_name[0] != '\0'))) {
+ strncat(basename, "_", PATH_MAX - basename_len);
+ basename_len = strlen(basename);
+ }
+ strncat(basename, field_name, PATH_MAX - basename_len);
+ }
+
+ switch(td->type) {
+ case INT_FIXED:
+ case UINT_FIXED:
+ case CHAR:
+ case UCHAR:
+ case SHORT:
+ case USHORT:
+ case INT:
+ case UINT:
+ case FLOAT:
+ case POINTER:
+ case LONG:
+ case ULONG:
+ case SIZE_T:
+ case SSIZE_T:
+ case OFF_T:
+ case ENUM:
+ print_tabs(tabs, fd);
+ fprintf(fd, "size = ");
+ fprintf(fd, "sizeof(");
+ if(print_type(td, fd, 0, basename, "")) return 1;
+ fprintf(fd, ");\n");
+ print_tabs(tabs, fd);
+ fprintf(fd, "size += ltt_align(*to+*len, size) + size;\n");
+ print_tabs(tabs, fd);
+ fprintf(fd, "*len += size;");
+ break;
+ case STRING:
+ print_tabs(tabs, fd);
+ fprintf(fd, "lttng_write_string_%s(buffer, to_base, to, from, len, obj->%s);\n", basename, field_name);
+ break;
+ case SEQUENCE:
+ print_tabs(tabs, fd);
+ fprintf(fd, "lttng_write_%s(buffer, to_base, to, from, len, &obj->%s)", basename,
+ field_name);
+ break;
+ case STRUCT:
+ print_tabs(tabs, fd);
+ fprintf(fd, "lttng_write_struct_%s(buffer, to_base, to, from, len, &obj->%s)", basename,
+ field_name);
+ break;
+ case UNION:
+ print_tabs(tabs, fd);
+ fprintf(fd, "lttng_write_union_%s(buffer, to_base, to, from, len, &obj->%s)", basename,
+ field_name);
+ break;
+ case ARRAY:
+ print_tabs(tabs, fd);
+ fprintf(fd, "lttng_write_array_%s(buffer, to_base, to, from, len, obj->%s)", basename,
+ field_name);
+ break;
+ case NONE:
+ printf("Error : type NONE unexpected\n");
+ return 1;
+ break;
+ }
+
+ return 0;
+}
+
+
+
+/* print type alignment function.
+ *
+ * Copied from construct_types_and_fields in LTTV facility.c
+ *
+ * basename is the name which identifies the type (along with a prefix
+ * (possibly)). */
+
+int print_type_alignment_fct(type_descriptor_t * td, FILE *fd,
+ unsigned int tabs,
+ char *nest_name, char *field_name)
+{
+ char basename[PATH_MAX];
+ unsigned int basename_len = 0;
+
+ strncpy(basename, nest_name, PATH_MAX);
+ basename_len = strlen(basename);
+
+ /* For a named type, we use the type_name directly */
+ if(td->type_name != NULL) {
+ strncpy(basename, td->type_name, PATH_MAX);
+ basename_len = strlen(basename);
+ } else {
+ /* For a unnamed type, there must be a field name, except for
+ * the array. */
+ if((basename_len != 0)
+ && (basename[basename_len-1] != '_'
+ && (field_name[0] != '\0'))) {
+ strncat(basename, "_", PATH_MAX - basename_len);
+ basename_len = strlen(basename);
+ }
+ strncat(basename, field_name, PATH_MAX - basename_len);
+ }
+
+ switch(td->type) {
+ case SEQUENCE:
+ /* Function header */
+ fprintf(fd, "static inline size_t lttng_get_alignment_sequence_%s(\n",
+ basename);
+ print_tabs(2, fd);
+ if(print_type(td, fd, 0, basename, "")) return 1;
+ fprintf(fd, " *obj)\n");
+ fprintf(fd, "{\n");
+ print_tabs(1, fd);
+ fprintf(fd, "size_t align=0, localign;");
+ fprintf(fd, "\n");
+ print_tabs(1, fd);
+ fprintf(fd, "localign = ");
+ if(print_type_alignment(((field_t*)td->fields.array[0])->type,
+ fd, 0, basename, ((field_t*)td->fields.array[0])->name)) return 1;
+ fprintf(fd, ";\n");
+ print_tabs(1, fd);
+ fprintf(fd, "align = max(align, localign);\n");
+ fprintf(fd, "\n");
+ print_tabs(1, fd);
+ fprintf(fd, "localign = ");
+ if(print_type_alignment(((field_t*)td->fields.array[1])->type,
+ fd, 0, basename, ((field_t*)td->fields.array[1])->name)) return 1;
+ fprintf(fd, ";\n");
+ print_tabs(1, fd);
+ fprintf(fd, "align = max(align, localign);\n");
+ fprintf(fd, "\n");
+ print_tabs(1, fd);
+ fprintf(fd, "return align;\n");
+ break;
+ case STRUCT:
+ /* Function header */
+ fprintf(fd, "static inline size_t lttng_get_alignment_struct_%s(\n",
+ basename);
+ print_tabs(2, fd);
+ if(print_type(td, fd, 0, basename, "")) return 1;
+ fprintf(fd, " *obj)\n");
+ fprintf(fd, "{\n");
+ print_tabs(1, fd);
+ fprintf(fd, "size_t align=0, localign;");
+ fprintf(fd, "\n");
+ for(unsigned int i=0;i<td->fields.position;i++){
+ field_t *field = (field_t*)(td->fields.array[i]);
+ type_descriptor_t *type = field->type;
+ print_tabs(1, fd);
+ fprintf(fd, "localign = ");
+ if(print_type_alignment(type, fd, 0, basename, field->name)) return 1;
+ fprintf(fd, ";\n");
+ print_tabs(1, fd);
+ fprintf(fd, "align = max(align, localign);\n");
+ fprintf(fd, "\n");
+ }
+ print_tabs(1, fd);
+ fprintf(fd, "return align;\n");
+
+ break;
+ case UNION:
+ /* Function header */
+ fprintf(fd, "static inline size_t lttng_get_alignment_union_%s(\n",
+ basename);
+ print_tabs(2, fd);
+ if(print_type(td, fd, 0, basename, "")) return 1;
+ fprintf(fd, " *obj)\n");
+ fprintf(fd, "{\n");
+ print_tabs(1, fd);
+ fprintf(fd, "size_t align=0, localign;");
+ fprintf(fd, "\n");
+ for(unsigned int i=0;i<td->fields.position;i++){
+ field_t *field = (field_t*)(td->fields.array[i]);
+ type_descriptor_t *type = field->type;
+ print_tabs(1, fd);
+ fprintf(fd, "localign = ");
+ if(print_type_alignment(type, fd, 0, basename, field->name)) return 1;
+ fprintf(fd, ";\n");
+ print_tabs(1, fd);
+ fprintf(fd, "align = max(align, localign);\n");
+ fprintf(fd, "\n");
+ }
+ print_tabs(1, fd);
+ fprintf(fd, "return align;\n");
+
+ break;
+ case ARRAY:
+ /* Function header */
+ fprintf(fd, "static inline size_t lttng_get_alignment_array_%s(\n",
+ basename);
+ print_tabs(2, fd);
+ if(print_type(td, fd, 0, basename, "")) return 1;
+ fprintf(fd, " obj)\n");
+ fprintf(fd, "{\n");
+ print_tabs(1, fd);
+ fprintf(fd, "return \n");
+ if(print_type_alignment(((field_t*)td->fields.array[0])->type,
+ fd, 0, basename, ((field_t*)td->fields.array[0])->name)) return 1;
+ fprintf(fd, ";\n");
+ break;
+ default:
+ printf("print_type_alignment_fct : type has no alignment function.\n");
+ return 0;
+ break;
+ }
+
+
+ /* Function footer */
+ fprintf(fd, "}\n");
+ fprintf(fd, "\n");
+
+ return 0;
+}
+
+/* print type write function.
+ *
+ * Copied from construct_types_and_fields in LTTV facility.c
+ *
+ * basename is the name which identifies the type (along with a prefix
+ * (possibly)). */
+
+int print_type_write_fct(type_descriptor_t * td, FILE *fd, unsigned int tabs,
+ char *nest_name, char *field_name)
+{
+ char basename[PATH_MAX];
+ unsigned int basename_len = 0;
+
+ strncpy(basename, nest_name, PATH_MAX);
+ basename_len = strlen(basename);
+
+ /* For a named type, we use the type_name directly */
+ if(td->type_name != NULL) {
+ strncpy(basename, td->type_name, PATH_MAX);
+ basename_len = strlen(basename);
+ } else {
+ /* For a unnamed type, there must be a field name, except for
+ * the array. */
+ if((basename_len != 0)
+ && (basename[basename_len-1] != '_'
+ && (field_name[0] != '\0'))) {
+ strncat(basename, "_", PATH_MAX - basename_len);
+ basename_len = strlen(basename);
+ }
+ strncat(basename, field_name, PATH_MAX - basename_len);
+ }
+
+ switch(td->type) {
+ case SEQUENCE:
+ case STRUCT:
+ case UNION:
+ case ARRAY:
+ break;
+ default:
+ printf("print_type_write_fct : type has no write function.\n");
+ return 0;
+ break;
+ }
+
+ /* Print header */
+ switch(td->type) {
+ case SEQUENCE:
+ fprintf(fd, "static inline void lttng_write_sequence_%s(\n",
+ basename);
+ break;
+ case STRUCT:
+ fprintf(fd, "static inline void lttng_write_struct_%s(\n", basename);
+ break;
+ case UNION:
+ fprintf(fd, "static inline void lttng_write_union_%s(\n", basename);
+ break;
+ case ARRAY:
+ fprintf(fd, "static inline void lttng_write_array_%s(\n", basename);
+ break;
+ default:
+ printf("print_type_write_fct : type has no write function.\n");
+ break;
+ }
+
+ print_tabs(2, fd);
+ fprintf(fd, "void *buffer,\n");
+ print_tabs(2, fd);
+ fprintf(fd, "size_t *to_base,\n");
+ print_tabs(2, fd);
+ fprintf(fd, "size_t *to,\n");
+ print_tabs(2, fd);
+ fprintf(fd, "void **from,\n");
+ print_tabs(2, fd);
+ fprintf(fd, "size_t *len,\n");
+ print_tabs(2, fd);
+ if(print_type(td, fd, 0, basename, "")) return 1;
+
+ switch(td->type) {
+ case SEQUENCE:
+ fprintf(fd, " *obj)\n");
+ break;
+ case STRUCT:
+ fprintf(fd, " *obj)\n");
+ break;
+ case UNION:
+ fprintf(fd, " *obj)\n");
+ break;
+ case ARRAY:
+ fprintf(fd, " obj)\n");
+ break;
+ default:
+ printf("print_type_write_fct : type has no write function.\n");
+ break;
+ }
+
+ fprintf(fd, "{\n");
+ print_tabs(1, fd);
+ fprintf(fd, "size_t align, size;\n");
+ fprintf(fd, "\n");
+
+ switch(td->type) {
+ case SEQUENCE:
+ case STRING:
+ print_tabs(1, fd);
+ fprintf(fd, "/* Flush pending memcpy */\n");
+ print_tabs(1, fd);
+ fprintf(fd, "if(*len != 0) {\n");
+ print_tabs(2, fd);
+ fprintf(fd, "if(buffer != NULL)\n");
+ print_tabs(3, fd);
+ fprintf(fd, "memcpy(buffer+*to_base+*to, *from, *len);\n");
+ print_tabs(1, fd);
+ fprintf(fd, "}\n");
+ print_tabs(1, fd);
+ fprintf(fd, "*to += *len;\n");
+ print_tabs(1, fd);
+ fprintf(fd, "*len = 0;\n");
+ fprintf(fd, "\n");
+ break;
+ case STRUCT:
+ case UNION:
+ case ARRAY:
+ break;
+ default:
+ printf("print_type_write_fct : type has no write function.\n");
+ break;
+ }
+
+ print_tabs(1, fd);
+ fprintf(fd, "align = ");
+ if(print_type_alignment(td, fd, 0, basename, field_name)) return 1;
+ fprintf(fd, ";\n");
+ fprintf(fd, "\n");
+ print_tabs(1, fd);
+ fprintf(fd, "if(*len == 0) {\n");
+ print_tabs(2, fd);
+ fprintf(fd, "*to += ltt_align(*to, align); /* align output */\n");
+ print_tabs(1, fd);
+ fprintf(fd, "} else {\n");
+ print_tabs(2, fd);
+ fprintf(fd, "*len += ltt_align(*to+*len, align); /* alignment, ok to do a memcpy of it */\n");
+ print_tabs(1, fd);
+ fprintf(fd, "}\n");
+ fprintf(fd, "\n");
+
+ /* First, check if the type has a fixed size. If it is the case, then the size
+ * to write is know by the compiler : simply use a sizeof() */
+ if(has_type_fixed_size(td)) {
+ print_tabs(1, fd);
+ fprintf(fd, "/* Contains only fixed size fields : use compiler sizeof() */\n");
+ fprintf(fd, "\n");
+ print_tabs(1, fd);
+ fprintf(fd, "*len += sizeof(");
+ if(print_type(td, fd, 0, basename, field_name)) return 1;
+ fprintf(fd, ");\n");
+ } else {
+ /* The type contains nested variable size subtypes :
+ * we must write field by field. */
+ print_tabs(1, fd);
+ fprintf(fd, "/* Contains variable sized fields : must explode the structure */\n");
+ fprintf(fd, "\n");
+
+ switch(td->type) {
+ case SEQUENCE:
+ print_tabs(1, fd);
+ fprintf(fd, "/* Copy members */\n");
+ print_tabs(1, fd);
+ fprintf(fd, "size = sizeof(\n");
+ if(print_type_write(((field_t*)td->fields.array[0])->type,
+ fd, 1, basename, ((field_t*)td->fields.array[0])->name)) return 1;
+ fprintf(fd, ");\n");
+ print_tabs(1, fd);
+ fprintf(fd, "*to += ltt_align(*to, size);\n");
+ print_tabs(1, fd);
+ fprintf(fd, "if(buffer != NULL)\n");
+ print_tabs(2, fd);
+ fprintf(fd, "memcpy(buffer+*to_base+*to, &obj->len, size);\n");
+ print_tabs(1, fd);
+ fprintf(fd, "*to += size;\n");
+ fprintf(fd, "\n");
+
+ /* Write the child : varlen child or not ? */
+ if(has_type_fixed_size(((field_t*)td->fields.array[1])->type)) {
+ /* Fixed size len child : use a multiplication of its size */
+ print_tabs(1, fd);
+ fprintf(fd, "size = sizeof(\n");
+ if(print_type_write(((field_t*)td->fields.array[1])->type,
+ fd, 1, basename, ((field_t*)td->fields.array[1])->name)) return 1;
+ fprintf(fd, ");\n");
+ print_tabs(1, fd);
+ fprintf(fd, "*to += ltt_align(*to, size);\n");
+ print_tabs(1, fd);
+ fprintf(fd, "size = obj->len * size;\n");
+ print_tabs(1, fd);
+ fprintf(fd, "if(buffer != NULL)\n");
+ print_tabs(2, fd);
+ fprintf(fd, "memcpy(buffer+*to_base+*to, obj->array, size);\n");
+ print_tabs(1, fd);
+ fprintf(fd, "*to += size;\n");
+ fprintf(fd, "\n");
+ } else {
+ print_tabs(1, fd);
+ fprintf(fd, "/* Variable length child : iter. */\n");
+ print_tabs(1, fd);
+ fprintf(fd, "for(unsigned int i=0; i<obj->len; i++) {\n");
+ if(print_type_write(((field_t*)td->fields.array[1])->type,
+ fd, 2, basename, ((field_t*)td->fields.array[1])->name)) return 1;
+ print_tabs(1, fd);
+ fprintf(fd, "}\n");
+ }
+ fprintf(fd, "\n");
+ print_tabs(1, fd);
+ fprintf(fd, "/* Realign the *to_base on arch size, set *to to 0 */\n");
+ print_tabs(1, fd);
+ fprintf(fd, "*to = ltt_align(*to, sizeof(void *));\n");
+ print_tabs(1, fd);
+ fprintf(fd, "*to_base = *to_base+*to;\n");
+ print_tabs(1, fd);
+ fprintf(fd, "*to = 0;\n");
+ fprintf(fd, "\n");
+ fprintf(fd, "/* Put source *from just after the C sequence */\n");
+ print_tabs(1, fd);
+ fprintf(fd, "*from = obj+1;\n");
+ break;
+ case STRING:
+ fprintf(fd, "size = strlen(obj);\n");
+ print_tabs(1, fd);
+ fprintf(fd, "if(buffer != NULL)\n");
+ print_tabs(2, fd);
+ fprintf(fd, "memcpy(buffer+*to_base+*to, obj, size);\n");
+ print_tabs(1, fd);
+ fprintf(fd, "*to += size;\n");
+ fprintf(fd, "\n");
+ print_tabs(1, fd);
+ fprintf(fd, "/* Realign the *to_base on arch size, set *to to 0 */\n");
+ print_tabs(1, fd);
+ fprintf(fd, "*to = ltt_align(*to, sizeof(void *));\n");
+ print_tabs(1, fd);
+ fprintf(fd, "*to_base = *to_base+*to;\n");
+ print_tabs(1, fd);
+ fprintf(fd, "*to = 0;\n");
+ fprintf(fd, "\n");
+ fprintf(fd, "/* Put source *from just after the C sequence */\n");
+ print_tabs(1, fd);
+ fprintf(fd, "*from = obj+1;\n");
+ break;
+ case STRUCT:
+ for(unsigned int i=0;i<td->fields.position;i++){
+ field_t *field = (field_t*)(td->fields.array[i]);
+ type_descriptor_t *type = field->type;
+ if(print_type_write(type,
+ fd, 1, basename, field->name)) return 1;
+ fprintf(fd, "\n");
+ }
+ break;
+ case UNION:
+ printf("ERROR : A union CANNOT contain a variable size child.\n");
+ return 1;
+ break;
+ case ARRAY:
+ /* Write the child : varlen child or not ? */
+ if(has_type_fixed_size(((field_t*)td->fields.array[0])->type)) {
+ /* Error : if an array has a variable size, then its child must also
+ * have a variable size. */
+ assert(0);
+ } else {
+ print_tabs(1, fd);
+ fprintf(fd, "/* Variable length child : iter. */\n");
+ print_tabs(1, fd);
+ fprintf(fd, "for(unsigned int i=0; i<LTTNG_ARRAY_SIZE_%s; i++) {\n", basename);
+ if(print_type_write(((field_t*)td->fields.array[1])->type,
+ fd, 2, basename, ((field_t*)td->fields.array[1])->name)) return 1;
+ print_tabs(1, fd);
+ fprintf(fd, "}\n");
+ }
+ break;
+ default:
+ printf("print_type_write_fct : type has no write function.\n");
+ break;
+ }
+
+
+ }
+
+
+ /* Function footer */
+ fprintf(fd, "}\n");
+ fprintf(fd, "\n");
+ return 0;
+}
+
+
+
/* Print the logging function of an event. This is the core of genevent */
-int print_event_logging_function(char *basename, event_t *event, FILE *fd)
+int print_event_logging_function(char *basename, facility_t *fac,
+ event_t *event, FILE *fd)
{
fprintf(fd, "static inline void trace_%s(\n", basename);
for(unsigned int j = 0; j < event->fields.position; j++) {
fprintf(fd,"#else\n");
fprintf(fd, "{\n");
/* Print the function variables */
+ print_tabs(1, fd);
+ fprintf(fd, "unsigned int index;\n");
+ print_tabs(1, fd);
+ fprintf(fd, "struct ltt_channel_struct *channel;\n");
+ print_tabs(1, fd);
+ fprintf(fd, "struct ltt_trace_struct *trace;\n");
+ print_tabs(1, fd);
+ fprintf(fd, "struct rchan_buf *relayfs_buf;\n");
+ print_tabs(1, fd);
+ fprintf(fd, "void *buffer = NULL;\n");
+ print_tabs(1, fd);
+ fprintf(fd, "size_t to_base = 0; /* The buffer is allocated on arch_size alignment */\n");
+ print_tabs(1, fd);
+ fprintf(fd, "size_t to = 0;\n");
+ print_tabs(1, fd);
+ fprintf(fd, "void *from;");
+ print_tabs(1, fd);
+ fprintf(fd, "size_t len = 0;\n");
+ print_tabs(1, fd);
+ fprintf(fd, "size_t reserve_size;\n");
+ print_tabs(1, fd);
+ fprintf(fd, "size_t slot_size;\n");
+ print_tabs(1, fd);
+ fprintf(fd, "cycles_t tsc;\n");
+ print_tabs(1, fd);
+ fprintf(fd, "size_t before_hdr_pad, size_t after_hdr_pad;\n");
+ fprintf(fd, "\n");
- /* Calculate event variable len + event alignment offset.
+ print_tabs(1, fd);
+ fprintf(fd, "if(ltt_traces.num_active_traces == 0) return;\n");
+ fprintf(fd, "\n");
+
+ /* Calculate event variable len + event data alignment offset.
* Assume that the padding for alignment starts at a void*
- * address. */
+ * address.
+ * This excludes the header size and alignment. */
+
+ print_tabs(1, fd);
+ fprintf(fd, "/* For each field, calculate the field size. */\n");
+ print_tabs(1, fd);
+ fprintf(fd, "/* size = to_base + to + len */\n");
+ print_tabs(1, fd);
+ fprintf(fd, "/* Assume that the padding for alignment starts at a\n");
+ print_tabs(1, fd);
+ fprintf(fd, " * sizeof(void *) address. */\n");
+ fprintf(fd, "\n");
+
+ for(unsigned int i=0;i<event->fields.position;i++){
+ field_t *field = (field_t*)(event->fields.array[i]);
+ type_descriptor_t *type = field->type;
+ if(print_type_write(type,
+ fd, 1, basename, field->name)) return 1;
+ fprintf(fd, "\n");
+ }
+ print_tabs(1, fd);
+ fprintf(fd, "reserve_size = to_base + to + len;\n");
+ print_tabs(1, fd);
+ fprintf(fd, "to_base = to = len = 0;\n");
+ fprintf(fd, "\n");
/* Take locks : make sure the trace does not vanish while we write on
* it. A simple preemption disabling is enough (using rcu traces). */
+ print_tabs(1, fd);
+ fprintf(fd, "preempt_disable();\n");
+ print_tabs(1, fd);
+ fprintf(fd, "ltt_nesting[smp_processor_id()]++;\n");
+
+ /* Get facility index */
+
+ if(event->per_tracefile) {
+ print_tabs(1, fd);
+ fprintf(fd, "index = tracefile_index;\n");
+ } else {
+ print_tabs(1, fd);
+ fprintf(fd,
+ "index = ltt_get_index_from_facility(ltt_facility_%s_%X,\n"\
+ "\t\t\t\t\t\tevent_%s);\n",
+ fac->name, fac->checksum, event->name);
+ }
+ fprintf(fd,"\n");
+
/* For each trace */
+ print_tabs(1, fd);
+ fprintf(fd, "list_for_each_entry_rcu(trace, <t_traces.head, list) {\n");
+ print_tabs(2, fd);
+ fprintf(fd, "if(!trace->active) continue;\n\n");
+
+ if(event->per_trace) {
+ print_tabs(2, fd);
+ fprintf(fd, "if(dest_trace != trace) continue;\n\n");
+ }
+
+ print_tabs(2, fd);
+ fprintf(fd, "channel = ltt_get_channel_from_index(trace, index);\n");
+ print_tabs(2, fd);
+ fprintf(fd, "relayfs_buf = channel->rchan->buf[channel->rchan->buf->cpu];\n");
+ fprintf(fd, "\n");
+
/* Relay reserve */
- /* If error, increment counter and return */
+ /* If error, increment event lost counter (done by ltt_reserve_slot) and
+ * return */
+ print_tabs(2, fd);
+ fprintf(fd, "slot_size = 0;\n");
+ print_tabs(2, fd);
+ fprintf(fd, "buffer = ltt_reserve_slot(trace, relayfs_buf,\n");
+ print_tabs(3, fd);
+ fprintf(fd, "reserve_size, &slot_size, &tsc,\n");
+ print_tabs(3, fd);
+ fprintf(fd, "&before_hdr_pad, &after_hdr_pad);\n");
+ /* If error, return */
+ print_tabs(2, fd);
+ fprintf(fd, "if(!buffer) return;\n\n");
- /* write data */
+ /* write data : assume stack alignment is the same as struct alignment. */
+
+ for(unsigned int i=0;i<event->fields.position;i++){
+ field_t *field = (field_t*)(event->fields.array[i]);
+ type_descriptor_t *type = field->type;
+
+ /* Set from */
+ print_tabs(2, fd);
+ switch(type->type) {
+ case SEQUENCE:
+ case UNION:
+ case ARRAY:
+ case STRUCT:
+ case STRING:
+ fprintf(fd, "from = %s;\n", field->name);
+ break;
+ default:
+ fprintf(fd, "from = &%s;\n", field->name);
+ break;
+ }
+
+
+ if(print_type_write(type,
+ fd, 2, basename, field->name)) return 1;
+ fprintf(fd, "\n");
+ /* Don't forget to flush pending memcpy */
+ print_tabs(2, fd);
+ fprintf(fd, "/* Flush pending memcpy */\n");
+ print_tabs(2, fd);
+ fprintf(fd, "if(len != 0) {\n");
+ print_tabs(3, fd);
+ fprintf(fd, "memcpy(buffer+to_base+to, from, len);\n");
+ print_tabs(3, fd);
+ fprintf(fd, "to += len;\n");
+ //print_tabs(3, fd);
+ //fprintf(fd, "from += len;\n");
+ print_tabs(3, fd);
+ fprintf(fd, "len = 0;\n");
+ print_tabs(2, fd);
+ fprintf(fd, "}\n");
+ fprintf(fd, "\n");
+ }
+
+
/* commit */
+ print_tabs(2, fd);
+ fprintf(fd, "ltt_commit_slot(relayfs_buf, buffer, slot_size);\n\n");
+ print_tabs(1, fd);
+ fprintf(fd, "}\n\n");
+
/* Release locks */
+ print_tabs(1, fd);
+ fprintf(fd, "ltt_nesting[smp_processor_id()]--;\n");
+ print_tabs(1, fd);
+ fprintf(fd, "preempt_enable_no_resched();\n");
fprintf(fd, "}\n");
fprintf(fd, "#endif //CONFIG_LTT\n\n");
/* For each named type, print the definition */
if((print_type_declaration(types->array[i], fd,
0, "", ""))) return 1;
+ /* Print also the align function */
+ if((print_type_alignment_fct(types->array[i], fd,
+ 0, "", ""))) return 1;
+ /* Print also the write function */
+ if((print_type_write_fct(types->array[i], fd,
+ 0, "", ""))) return 1;
}
return 0;
}
/* For each unnamed type, print the definition */
field_t *f = (field_t*)event->fields.array[j];
type_descriptor_t *t = f->type;
- if(t->type_name == NULL)
+ if(t->type_name == NULL) {
if((print_type_declaration(t, fd, 0, basename, f->name))) return 1;
+ /* Print also the align function */
+ if((print_type_alignment_fct(t, fd, 0, basename, f->name))) return 1;
+ /* Print also the write function */
+ if((print_type_write_fct(t, fd, 0, basename, f->name))) return 1;
+ }
}
+
fprintf(fd, "\n");
fprintf(fd, "/* Event %s logging function */\n",
event->name);
- if(print_event_logging_function(basename, event, fd)) return 1;
+ if(print_event_logging_function(basename, fac, event, fd)) return 1;
fprintf(fd, "\n");
}
char *token;
parse_file_t in;
facility_t * fac = NULL;
- unsigned long checksum;
char buffer[BUFFER_SIZE];
int generated = FALSE;
//check if any namedType is not defined
checkNamedTypesImplemented(&fac->named_types);
- generateChecksum(fac->name, &checksum, &fac->events);
-
+ generateChecksum(fac->name, &fac->checksum, &fac->events);
+
generated = TRUE;
}
else {