#include <stdlib.h>
#include <string.h>
+#include <ctype.h>
#include <stdio.h>
#include <stdarg.h>
#include <linux/errno.h>
#include "parser.h"
#include "genevent.h"
+
/* Named types may be referenced from anywhere */
facility * fac;
token = getName(&in);
if(strcmp("facility",token) == 0) {
- fac = memAlloc(sizeof(facility));
- fac->name = NULL;
- fac->description = NULL;
- sequence_init(&(fac->events));
- table_init(&(fac->named_types));
- sequence_init(&(fac->unnamed_types));
-
- parseFacility(&in, fac);
-
- //check if any namedType is not defined
- checkNamedTypesImplemented(&fac->named_types);
- }else in.error(&in,"facility token was expected");
+ fac = memAlloc(sizeof(facility));
+ fac->name = NULL;
+ fac->description = NULL;
+ sequence_init(&(fac->events));
+ table_init(&(fac->named_types));
+ sequence_init(&(fac->unnamed_types));
+
+ parseFacility(&in, fac);
+
+ //check if any namedType is not defined
+ checkNamedTypesImplemented(&fac->named_types);
+ }
+ else in.error(&in,"facility token was expected");
generateFile(argv[i]);
generateChecksum(fac->name, &checksum, &(fac->events));
/* generate .h file, event enumeration then structures and functions */
- generateEnumEvent(hFp, fac->name, &nbEvent);
- generateStructFunc(hFp, fac->name);
+ fprintf(hFp, "#ifndef _LTT_FACILITY_%s_H_\n",fac->capname);
+ fprintf(hFp, "#define _LTT_FACILITY_%s_H_\n\n",fac->capname);
+ generateEnumEvent(hFp, fac->name, &nbEvent, checksum);
+ generateTypeDefs(hFp);
+ generateStructFunc(hFp, fac->name,checksum);
+ fprintf(hFp, "#endif //_LTT_FACILITY_%s_H_\n",fac->capname);
/* generate .c file, calls to register the facility at init time */
generateCfile(cFp,fac->name,nbEvent,checksum);
*Output Params
* nbEvent : number of events in the facility
****************************************************************************/
-void generateEnumEvent(FILE *fp, char *facName, int * nbEvent) {
+void generateEnumEvent(FILE *fp, char *facName, int * nbEvent, unsigned long checksum) {
int pos = 0;
- //will be removed later
- fprintf(fp,"typedef unsigned int trace_facility_t;\n\n");
- fprintf(fp,"extern int trace_new(trace_facility_t fID, u8 eID, int length, char * buf);\n\n");
-
+ fprintf(fp,"#include <linux/ltt-log.h>\n\n");
fprintf(fp,"/**** facility handle ****/\n\n");
- fprintf(fp,"extern trace_facility_t facility_%s;\n\n\n",facName);
+ fprintf(fp,"extern trace_facility_t ltt_facility_%s_%X;\n\n\n",facName, checksum);
fprintf(fp,"/**** event type ****/\n\n");
fprintf(fp,"enum %s_event {\n",facName);
for(pos = 0; pos < fac->events.position;pos++) {
- fprintf(fp," %s", ((event *)(fac->events.array[pos]))->name);
+ fprintf(fp,"\t%s", ((event *)(fac->events.array[pos]))->name);
if(pos != fac->events.position-1) fprintf(fp,",\n");
}
fprintf(fp,"\n};\n\n\n");
}
+/*****************************************************************************
+ *Function name
+ * printStruct : Generic struct printing function
+ *Input Params
+ * fp : file to be written to
+ * len : number of fields
+ * array : array of field info
+ * name : basic struct name
+ * facName : name of facility
+ * whichTypeFirst : struct or array/sequence first
+ * hasStrSeq : string or sequence present?
+ * structCount : struct postfix
+ ****************************************************************************/
+static void
+printStruct(FILE * fp, int len, void ** array, char * name, char * facName,
+ int * whichTypeFirst, int * hasStrSeq, int * structCount)
+{
+ int flag = 0;
+ int pos;
+ field * fld;
+ type_descriptor * td;
+
+ for (pos = 0; pos < len; pos++) {
+ fld = (field *)array[pos];
+ td = fld->type;
+ if( td->type != STRING && td->type != SEQUENCE &&
+ td->type != ARRAY) {
+ if (*whichTypeFirst == 0) {
+ *whichTypeFirst = 1; //struct first
+ }
+ if (flag == 0) {
+ flag = 1;
+
+ fprintf(fp,"struct %s_%s",
+ name, facName);
+ if (structCount) {
+ fprintf(fp, "_%d {\n",
+ ++*structCount);
+ } else {
+ fprintf(fp, " {\n");
+ }
+ }
+ fprintf(fp, "\t%s %s; /* %s */\n",
+ getTypeStr(td),fld->name,fld->description );
+ } else {
+ if (*whichTypeFirst == 0) {
+ //string or sequence or array first
+ *whichTypeFirst = 2;
+ }
+ (*hasStrSeq)++;
+ if(flag) {
+ fprintf(fp,"} __attribute__ ((packed));\n\n");
+ }
+ flag = 0;
+ }
+ }
+
+ if(flag) {
+ fprintf(fp,"} __attribute__ ((packed));\n\n");
+ }
+}
+
+
+/*****************************************************************************
+ *Function name
+ * generateHfile : Create the typedefs
+ *Input Params
+ * fp : file to be written to
+ ****************************************************************************/
+void
+generateTypeDefs(FILE * fp)
+{
+ int pos, tmp = 1;
+
+ fprintf(fp, "/**** Basic Type Definitions ****/\n\n");
+
+ for (pos = 0; pos < fac->named_types.values.position; pos++) {
+ type_descriptor * type =
+ (type_descriptor*)fac->named_types.values.array[pos];
+ printStruct(fp, type->fields.position, type->fields.array,
+ "", type->type_name, &tmp, &tmp, NULL);
+ fprintf(fp, "typedef struct _%s %s;\n\n",
+ type->type_name, type->type_name);
+ }
+}
+
+
/*****************************************************************************
*Function name
* generateEnumDefinition: generate enum definition if it exists
fprintf(fp,"enum {\n");
for(pos = 0; pos < type->labels.position; pos++){
- fprintf(fp," %s", type->labels.array[pos]);
+ fprintf(fp,"\t%s", type->labels.array[pos]);
if (pos != type->labels.position - 1) fprintf(fp,",\n");
}
fprintf(fp,"\n};\n\n\n");
* fp : file to be written to
* facName : name of facility
****************************************************************************/
-void generateStructFunc(FILE * fp, char * facName){
+void generateStructFunc(FILE * fp, char * facName, unsigned long checksum){
event * ev;
field * fld;
type_descriptor * td;
fprintf(fp,"/**** structure and trace function for event: %s ****/\n\n",ev->name);
if(ev->type == 0){ // event without type
fprintf(fp,"static inline void trace_%s_%s(void){\n",facName,ev->name);
- fprintf(fp," trace_new(facility_%s, %s, 0, NULL);\n",facName,ev->name);
+ fprintf(fp,"\tltt_log_event(ltt_facility_%s_%X, %s, 0, NULL);\n",facName,checksum,ev->name);
fprintf(fp,"};\n\n\n");
continue;
}
//default: no string, array or sequence in the event
hasStrSeq = 0;
whichTypeFirst = 0;
-
- //structure for kernel
- flag = 0;
structCount = 0;
- for(pos1 = 0; pos1 < ev->type->fields.position; pos1++){
- fld = (field *)ev->type->fields.array[pos1];
- td = fld->type;
- if( td->type != STRING && td->type != SEQUENCE && td->type != ARRAY){
- if(whichTypeFirst == 0) whichTypeFirst = 1; //struct first
- if(flag == 0){
- flag = 1;
- fprintf(fp,"struct %s_%s_%d{\n",ev->name,facName,++structCount);
- }
- fprintf(fp, " %s %s; /* %s */\n",getTypeStr(td),fld->name,fld->description );
- }else{
- if(whichTypeFirst == 0) whichTypeFirst = 2; //string or sequence or array first
- hasStrSeq++;
- if(flag)
- fprintf(fp,"} __attribute__ ((packed));\n\n");
- flag = 0;
- }
- }
- if(flag)
- fprintf(fp,"} __attribute__ ((packed));\n\n");
+
+ //structure for kernel
+ printStruct(fp, ev->type->fields.position, ev->type->fields.array,
+ ev->name, facName, &whichTypeFirst, &hasStrSeq, &structCount);
//trace function : function name and parameters
seqCount = 0;
fprintf(fp,"){\n");
//length of buffer : length of all structures
- fprintf(fp," int bufLength = ");
+ fprintf(fp,"\tint bufLength = ");
for(pos1=0;pos1<structCount;pos1++){
fprintf(fp,"sizeof(struct %s_%s_%d)",ev->name, facName,pos1+1);
if(pos1 != structCount-1) fprintf(fp," + ");
fprintf(fp,";\n");
//allocate buffer
- fprintf(fp," char buff[bufLength];\n");
+ fprintf(fp,"\tchar buff[bufLength];\n");
//declare a char pointer if needed
- if(structCount + hasStrSeq > 1) fprintf(fp," char * ptr = buff;\n");
+ if(structCount + hasStrSeq > 1) fprintf(fp,"\tchar * ptr = buff;\n");
//allocate memory for new struct and initialize it
if(whichTypeFirst == 1){ //struct first
for(pos1=0;pos1<structCount;pos1++){
- if(pos1==0) fprintf(fp," struct %s_%s_1 * __1 = (struct %s_%s_1 *)buff;\n",ev->name, facName,ev->name, facName);
- else fprintf(fp," struct %s_%s_%d __%d;\n",ev->name, facName,pos1+1,pos1+1);
+ if(pos1==0) fprintf(fp,"\tstruct %s_%s_1 * __1 = (struct %s_%s_1 *)buff;\n",ev->name, facName,ev->name, facName);
+ else fprintf(fp,"\tstruct %s_%s_%d __%d;\n",ev->name, facName,pos1+1,pos1+1);
}
}else if(whichTypeFirst == 2){
for(pos1=0;pos1<structCount;pos1++)
- fprintf(fp," struct %s_%s_%d __%d;\n",ev->name, facName,pos1+1,pos1+1);
+ fprintf(fp,"\tstruct %s_%s_%d __%d;\n",ev->name, facName,pos1+1,pos1+1);
}
fprintf(fp,"\n");
- if(structCount) fprintf(fp," //initialize structs\n");
+ if(structCount) fprintf(fp,"\t//initialize structs\n");
flag = 0;
structCount = 0;
for(pos1 = 0; pos1 < ev->type->fields.position; pos1++){
structCount++;
if(structCount > 1) fprintf(fp,"\n");
}
- if(structCount == 1 && whichTypeFirst == 1) fprintf(fp, " __1->%s = %s;\n",fld->name,fld->name );
- else fprintf(fp, " __%d.%s = %s;\n",structCount ,fld->name,fld->name);
+ if(structCount == 1 && whichTypeFirst == 1) fprintf(fp, "\t__1->%s = %s;\n",fld->name,fld->name );
+ else fprintf(fp, "\t__%d.%s = %s;\n",structCount ,fld->name,fld->name);
}else flag = 0;
}
if(structCount) fprintf(fp,"\n");
//set ptr to the end of first struct if needed;
if(whichTypeFirst == 1 && structCount + hasStrSeq > 1){
- fprintf(fp,"\n //set ptr to the end of the first struct\n");
- fprintf(fp," ptr += sizeof(struct %s_%s_1);\n\n",ev->name, facName);
+ fprintf(fp,"\n\t//set ptr to the end of the first struct\n");
+ fprintf(fp,"\tptr += sizeof(struct %s_%s_1);\n\n",ev->name, facName);
}
//copy struct, sequence and string to buffer
if(flag == 0) structCount++;
flag++;
if((structCount > 1 || whichTypeFirst == 2) && flag == 1){
- fprintf(fp," //copy struct to buffer\n");
- fprintf(fp," memcpy(ptr, &__%d, sizeof(struct %s_%s_%d));\n",structCount, ev->name, facName,structCount);
- fprintf(fp," ptr += sizeof(struct %s_%s_%d);\n\n",ev->name, facName,structCount);
+ fprintf(fp,"\t//copy struct to buffer\n");
+ fprintf(fp,"\tmemcpy(ptr, &__%d, sizeof(struct %s_%s_%d));\n",structCount, ev->name, facName,structCount);
+ fprintf(fp,"\tptr += sizeof(struct %s_%s_%d);\n\n",ev->name, facName,structCount);
}
}else if(td->type == SEQUENCE){
flag = 0;
- fprintf(fp," //copy sequence length and sequence to buffer\n");
- fprintf(fp," *ptr = seqLength_%d;\n",++seqCount);
- fprintf(fp," ptr += sizeof(%s);\n",uintOutputTypes[td->size]);
- fprintf(fp," memcpy(ptr, %s, sizeof(%s) * seqLength_%d);\n",fld->name, getTypeStr(td), seqCount);
- fprintf(fp," ptr += sizeof(%s) * seqLength_%d;\n\n",getTypeStr(td), seqCount );
+ fprintf(fp,"\t//copy sequence length and sequence to buffer\n");
+ fprintf(fp,"\t*ptr = seqLength_%d;\n",++seqCount);
+ fprintf(fp,"\tptr += sizeof(%s);\n",uintOutputTypes[td->size]);
+ fprintf(fp,"\tmemcpy(ptr, %s, sizeof(%s) * seqLength_%d);\n",fld->name, getTypeStr(td), seqCount);
+ fprintf(fp,"\tptr += sizeof(%s) * seqLength_%d;\n\n",getTypeStr(td), seqCount );
}else if(td->type==STRING){
flag = 0;
- fprintf(fp," //copy string to buffer\n");
- fprintf(fp," if(strLength_%d > 0){\n",++strCount);
- fprintf(fp," memcpy(ptr, %s, strLength_%d + 1);\n", fld->name, strCount);
- fprintf(fp," ptr += strLength_%d + 1;\n",strCount);
- fprintf(fp," }else{\n");
- fprintf(fp," *ptr = '\\0';\n");
- fprintf(fp," ptr += 1;\n");
- fprintf(fp," }\n\n");
+ fprintf(fp,"\t//copy string to buffer\n");
+ fprintf(fp,"\tif(strLength_%d > 0){\n",++strCount);
+ fprintf(fp,"\t\tmemcpy(ptr, %s, strLength_%d + 1);\n", fld->name, strCount);
+ fprintf(fp,"\t\tptr += strLength_%d + 1;\n",strCount);
+ fprintf(fp,"\t}else{\n");
+ fprintf(fp,"\t\t*ptr = '\\0';\n");
+ fprintf(fp,"\t\tptr += 1;\n");
+ fprintf(fp,"\t}\n\n");
}else if(td->type==ARRAY){
flag = 0;
- fprintf(fp," //copy array to buffer\n");
- fprintf(fp," memcpy(ptr, %s, sizeof(%s) * %d);\n", fld->name, getTypeStr(td), td->size);
- fprintf(fp," ptr += sizeof(%s) * %d;\n\n",getTypeStr(td), td->size);
+ fprintf(fp,"\t//copy array to buffer\n");
+ fprintf(fp,"\tmemcpy(ptr, %s, sizeof(%s) * %d);\n", fld->name, getTypeStr(td), td->size);
+ fprintf(fp,"\tptr += sizeof(%s) * %d;\n\n",getTypeStr(td), td->size);
}
}
if(structCount + seqCount > 1) fprintf(fp,"\n");
//call trace function
- fprintf(fp,"\n //call trace function\n");
- fprintf(fp," trace_new(facility_%s, %s, bufLength, buff);\n",facName,ev->name);
+ fprintf(fp,"\n\t//call trace function\n");
+ fprintf(fp,"\tltt_log_event(ltt_facility_%s_%X, %s, bufLength, buff);\n",facName,checksum,ev->name);
fprintf(fp,"};\n\n\n");
}
return intOutputTypes[td->size];
case UINT:
return uintOutputTypes[td->size];
+ case POINTER:
+ return "void *";
+ case LONG:
+ return "long";
+ case ULONG:
+ return "unsigned long";
+ case SIZE_T:
+ return "size_t";
+ case SSIZE_T:
+ return "ssize_t";
+ case OFF_T:
+ return "off_t";
case FLOAT:
return floatOutputTypes[td->size];
case STRING:
t = td->nested_type;
switch(t->type){
case INT:
- return intOutputTypes[t->size];
+ return intOutputTypes[t->size];
case UINT:
- return uintOutputTypes[t->size];
+ return uintOutputTypes[t->size];
+ case POINTER:
+ return "void *";
+ case LONG:
+ return "long";
+ case ULONG:
+ return "unsigned long";
+ case SIZE_T:
+ return "size_t";
+ case SSIZE_T:
+ return "ssize_t";
+ case OFF_T:
+ return "off_t";
case FLOAT:
- return floatOutputTypes[t->size];
+ return floatOutputTypes[t->size];
case STRING:
- return "char";
+ return "char";
case ENUM:
- return uintOutputTypes[t->size];
+ return uintOutputTypes[t->size];
default :
- error_callback(NULL,"Nested struct is not supportted");
- break;
+ error_callback(NULL,"Nested struct is not supportted");
+ break;
}
break;
case STRUCT: //for now we do not support nested struct
fprintf(fp,"trace_facility_t facility_%s;\n\n",facName);
fprintf(fp,"static void __init facility_%s_init(){\n",facName);
- fprintf(fp," facility_%s = trace_register_facility_by_checksum(\"%s\", checksum,%d);\n",facName,facName,nbEvent);
+ fprintf(fp,"\tfacility_%s = trace_register_facility_by_checksum(\"%s\", checksum,%d);\n",facName,facName,nbEvent);
fprintf(fp,"}\n\n");
fprintf(fp,"static void __exit facility_%s_exit(){\n",facName);