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/*==================================================================*\
| EXIP - Embeddable EXI Processor in C |
|--------------------------------------------------------------------|
| This work is licensed under BSD 3-Clause License |
| The full license terms and conditions are located in LICENSE.txt |
\===================================================================*/
/**
* @file exipd.c
* @brief Command-line utility
*
* @date Nov 5, 2012
* @author Rumen Kyusakov
* @version 0.5
* @par[Revision] $Id: exipd.c 328 2013-10-30 16:00:10Z kjussakov $
*/
#include "decodeTestEXI.h"
#include "grammarGenerator.h"
#define MAX_XSD_FILES_COUNT 10 // up to 10 XSD files
static void printfHelp();
static void parseSchema(char* xsdList, EXIPSchema* schema);
static void parseOpsMask(char* mask, EXIOptions* ops);
size_t readFileInputStream(void* buf, size_t readSize, void* stream);
int main(int argc, char *argv[])
{
FILE *infile = stdin;
char sourceFileName[500];
EXIPSchema schema;
EXIPSchema* schemaPtr = NULL;
EXIOptions ops;
EXIOptions* opsPtr = NULL;
boolean outOfBandOpts = FALSE;
unsigned char outFlag = OUT_EXI; // Default output option
unsigned int argIndex = 1;
errorCode tmp_err_code = EXIP_UNEXPECTED_ERROR;
strcpy(sourceFileName, "stdin");
makeDefaultOpts(&ops);
if(argc > 1)
{
if(strcmp(argv[argIndex], "-help") == 0)
{
printfHelp();
return 0;
}
else if(strcmp(argv[argIndex], "-exi") == 0)
{
outFlag = OUT_EXI;
if(argc == 2)
{
printfHelp();
return 0;
}
argIndex += 1;
}
else if(strcmp(argv[argIndex], "-xml") == 0)
{
outFlag = OUT_XML;
if(argc == 2)
{
printfHelp();
return 0;
}
argIndex += 1;
}
if(strstr(argv[argIndex], "-ops") != NULL)
{
char *mask = argv[argIndex] + 4;
outOfBandOpts = TRUE;
parseOpsMask(mask, &ops);
opsPtr = &ops;
argIndex += 1;
}
if(strstr(argv[argIndex], "-schema") != NULL)
{
char *xsdList = argv[argIndex] + 7;
parseSchema(xsdList, &schema);
schemaPtr = &schema;
argIndex += 1;
}
}
if(argIndex < argc)
{
strcpy(sourceFileName, argv[argIndex]);
infile = fopen(sourceFileName, "rb" );
if(!infile)
{
fprintf(stderr, "Unable to open file %s\n", sourceFileName);
exit(1);
}
}
tmp_err_code = decode(schemaPtr, outFlag, infile, outOfBandOpts, opsPtr, readFileInputStream);
if(schemaPtr != NULL)
destroySchema(schemaPtr);
fclose(infile);
if(tmp_err_code != EXIP_OK)
{
printf("\nError (code: %d) during parsing of the EXI stream: %s\n", tmp_err_code, sourceFileName);
return 1;
}
else
{
printf("\nSuccessful parsing of the EXI stream: %s\n", sourceFileName);
return 0;
}
}
static void printfHelp()
{
printf("\n" );
printf(" EXIP Copyright (c) 2010 - 2012, EISLAB - LuleƄ University of Technology Version 0.4 \n");
printf(" Author: Rumen Kyusakov\n");
printf(" Usage: exipd [options] [exi_in]\n\n");
printf(" Options: [-help | [ -xml | -exi ] [-ops=<ops_mask>] -schema=<xsd_in>] \n");
printf(" -schema : uses schema defined in <xsd_in> for decoding. All referenced schema files should be included in <xsd_in>\n");
printf(" <xsd_in>: Comma-separated list of schema documents encoded in EXI with Preserve.prefixes. The first schema is the\n");
printf(" main one and the rest are schemas that are referenced from the main one through the <xs:import> statement.\n");
printf(" ops_mask: Specify out-of-band options used for encoding. Fields are delimited by %%.\n");
printf(" Use this argument only for specifying out-of-band options. That is if no options are specified in the header of the <exi_in>\n");
printf(" The format is: <1>%%<2>%%<3>%%<4>%%<5> where:\n");
printf(" <1> - Preservation Options: c - comments, d - dtds, l - lexicalvalues, p - pis, x- prefixes. If none set then \"-\" \n");
printf(" <2> - Other options: v - strict interpretation of schema, f - fragments\n");
printf(" r - selfContained, c - compression, p - pre-compression, a - aligned to bytes. If none set then \"-\"\n");
printf(" <3> - valuePartitionCapacity. If not set then \"-\"\n");
printf(" <4> - valueMaxLength. If not set then \"-\"\n");
printf(" <5> - blockSize. If not set then \"-\"\n");
printf(" For example: cx%%v%%0%%-%%- sets the folowing options: Preservation of comments and prefixes, strict schema informed\n");
printf(" and valuePartitionCapacity = 0\n");
printf(" -exi : EXI formated output [default]\n");
printf(" -xml : XML formated output\n");
printf(" -help : Prints this help message\n\n");
printf(" exi_in : input file containing the EXI stream (stdin if none specified)\n\n");
printf(" Purpose: This program tests the EXIP decoding functionality. The result is printed on the stdout.\n");
printf("\n" );
}
size_t readFileInputStream(void* buf, size_t readSize, void* stream)
{
FILE *infile = (FILE*) stream;
return fread(buf, 1, readSize, infile);
}
static void parseSchema(char* xsdList, EXIPSchema* schema)
{
errorCode tmp_err_code = EXIP_UNEXPECTED_ERROR;
FILE *schemaFile;
BinaryBuffer buffer[MAX_XSD_FILES_COUNT]; // up to 10 XSD files
char schemaFileName[500];
unsigned int schemaFilesCount = 0;
unsigned int i;
char *token;
for (token = strtok(xsdList, "=,"), i = 0; token != NULL; token = strtok(NULL, "=,"), i++)
{
schemaFilesCount++;
if(schemaFilesCount > MAX_XSD_FILES_COUNT)
{
fprintf(stderr, "Too many xsd files given as an input: %d", schemaFilesCount);
exit(1);
}
strcpy(schemaFileName, token);
schemaFile = fopen(schemaFileName, "rb" );
if(!schemaFile)
{
fprintf(stderr, "Unable to open file %s", schemaFileName);
exit(1);
}
else
{
//Get file length
fseek(schemaFile, 0, SEEK_END);
buffer[i].bufLen = ftell(schemaFile) + 1;
fseek(schemaFile, 0, SEEK_SET);
//Allocate memory
buffer[i].buf = (char *) malloc(buffer[i].bufLen);
if (!buffer[i].buf)
{
fprintf(stderr, "Memory allocation error!");
fclose(schemaFile);
exit(1);
}
//Read file contents into buffer
fread(buffer[i].buf, buffer[i].bufLen, 1, schemaFile);
fclose(schemaFile);
buffer[i].bufContent = buffer[i].bufLen;
buffer[i].ioStrm.readWriteToStream = NULL;
buffer[i].ioStrm.stream = NULL;
}
}
// Generate the EXI grammars based on the schema information
tmp_err_code = generateSchemaInformedGrammars(buffer, schemaFilesCount, SCHEMA_FORMAT_XSD_EXI, NULL, schema, NULL);
for(i = 0; i < schemaFilesCount; i++)
{
free(buffer[i].buf);
}
if(tmp_err_code != EXIP_OK)
{
printf("\nGrammar generation error occurred: %d", tmp_err_code);
exit(1);
}
}
static void parseOpsMask(char* mask, EXIOptions* ops)
{
unsigned int i;
char *token;
for (token = strtok(mask, "=%"), i = 0; token != NULL; token = strtok(NULL, "=%"), i++)
{
switch(i)
{
case 0:
if(strcmp(token, "-"))
{
// Preservation Options: c - comments, d - dtds, l - lexicalvalues, p - pis, x- prefixes
if(strstr(token, "c") != NULL)
SET_PRESERVED(ops->preserve, PRESERVE_COMMENTS);
if(strstr(token, "d") != NULL)
SET_PRESERVED(ops->preserve, PRESERVE_DTD);
if(strstr(token, "l") != NULL)
SET_PRESERVED(ops->preserve, PRESERVE_LEXVALUES);
if(strstr(token, "p") != NULL)
SET_PRESERVED(ops->preserve, PRESERVE_PIS);
if(strstr(token, "x") != NULL)
SET_PRESERVED(ops->preserve, PRESERVE_PREFIXES);
}
break;
case 1:
if(strcmp(token, "-"))
{
// Other options: v - strict interpretation of schema, f - fragments
// r - selfContained, c - compression, p - pre-compression, a - aligned to bytes\n");
if(strstr(token, "v") != NULL)
SET_STRICT(ops->enumOpt);
if(strstr(token, "f") != NULL)
SET_FRAGMENT(ops->enumOpt);
if(strstr(token, "r") != NULL)
SET_SELF_CONTAINED(ops->enumOpt);
if(strstr(token, "c") != NULL)
SET_COMPRESSION(ops->enumOpt);
if(strstr(token, "p") != NULL)
SET_ALIGNMENT(ops->enumOpt, PRE_COMPRESSION);
else if(strstr(token, "a") != NULL)
SET_ALIGNMENT(ops->enumOpt, BYTE_ALIGNMENT);
}
break;
case 2:
if(strcmp(token, "-"))
{
// valuePartitionCapacity
ops->valuePartitionCapacity = (Index) strtol(token, NULL, 10);
}
break;
case 3:
if(strcmp(token, "-"))
{
// valueMaxLength
ops->valueMaxLength = (Index) strtol(token, NULL, 10);
}
break;
case 4:
if(strcmp(token, "-"))
{
// blockSize
ops->blockSize = (uint32_t) strtol(token, NULL, 10);
}
break;
default:
{
fprintf(stderr, "Wrong options mask: %s", mask);
exit(1);
}
}
}
}