Automatic SBS_HOME detection for util making and installer.
It's a little more user-friendly for anyone who wants to build a linux install packager.
/*
* Copyright (c) 2009 Nokia Corporation and/or its subsidiary(-ies).
* All rights reserved.
* This component and the accompanying materials are made available
* under the terms of the License "Eclipse Public License v1.0"
* which accompanies this distribution, and is available
* at the URL "http://www.eclipse.org/legal/epl-v10.html".
*
* Initial Contributors:
* Nokia Corporation - initial contribution.
*
* Contributors:
*
* Description:
*
*/
#include <stdlib.h>
#include <unistd.h>
#include <string.h>
#include <stdio.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <stdarg.h>
#include "talon_process.h"
#include "sema.h"
#include "buffer.h"
#include "../config.h"
/* The output semaphore. */
sbs_semaphore talon_sem;
#define TALON_ATTEMPT_STRMAX 32
#define RECIPETAG_STRMAX 2048
#define STATUS_STRMAX 100
#define TALONDELIMITER '|'
#define VARNAMEMAX 100
#define VARVALMAX 1024
#include "log.h"
#ifdef HAS_MSVCRT
/* Make all output handling binary */
unsigned int _CRT_fmode = _O_BINARY;
#endif
double getseconds(void)
{
struct timeval tp;
gettimeofday(&tp, NULL);
return (double)tp.tv_sec + ((double)tp.tv_usec)/1000000.0L;
}
void talon_setenv(char name[], char val[])
{
#if defined(HAS_GETENVIRONMENTVARIABLE)
SetEnvironmentVariableA(name,val);
#elif defined(HAS_GETENV)
setenv(name,val, 1);
#else
# error "Need a function for setting environment variables"
#endif
}
#define TALON_MAXENV 4096
char * talon_getenv(char name[])
{
#if defined(HAS_SETENV)
char *val = getenv(name);
char *dest = NULL;
if (val)
{
dest = malloc(strlen(val) + 1);
if (dest)
{
strcpy(dest,val);
}
}
return dest;
#elif defined(HAS_SETENVIRONMENTVARIABLE)
char *val = malloc(TALON_MAXENV);
if (0 != GetEnvironmentVariableA(name,val,TALON_MAXENV-1))
return val;
else
return NULL;
#else
# error "Need a function for setting environment variables"
#endif
}
void prependattributes(buffer *b, char *attributes)
{
char recipetag[RECIPETAG_STRMAX];
char *rt;
char envvarname[VARNAMEMAX];
char *att;
strcpy(recipetag, "<recipe ");
rt = recipetag + 8;
att = attributes;
while (*att != '\0' && rt < &recipetag[RECIPETAG_STRMAX-1])
{
if ( *att == '$' )
{
int e;
char *v;
/* insert the value of an environent variable */
att++;
e = 0;
do {
envvarname[e++] = *att;
att++;
} while ( e < (VARNAMEMAX-1) && (isalnum(*att) || *att == '_'));
envvarname[e] = '\0';
/* DEBUG(("envvarname: %s\n", envvarname)); */
v = talon_getenv(envvarname);
if (v)
{
/* DEBUG((" value: %s\n", v)); */
char *oldv=v;
while (*v != '\0' && rt < &recipetag[RECIPETAG_STRMAX-1])
{
*rt = *v;
rt++; v++;
}
free(oldv);
}
} else {
*rt = *att;
rt++; att++;
}
}
char *finish = ">\n<![CDATA[\n";
while (*finish != '\0' && rt < &recipetag[RECIPETAG_STRMAX-1])
{
*rt = *finish;
*rt++; finish++;
}
*rt = '\0';
buffer_prepend(b, recipetag, strlen(recipetag));
}
/* read a recipe string from a temporary file.
*
* We only expect to do this for very long command lines on
* Windows. So allocate the maximum size for CreateProcess on
* Win32 (32768 bytes) and error if the file is longer than that.
*
*/
char *read_recipe_from_file(const char *filename)
{
FILE *fp = fopen(filename, "r");
if (!fp)
{
error("talon: error: could not read '%s'\n", filename);
return NULL;
}
int max_length = 32768;
char *recipe = (char*)malloc(max_length);
if (!recipe)
{
error("talon: error: could not allocate memory to read '%s'\n", filename);
return NULL;
}
int position = 0;
/* read the file one character at a time */
int c;
while ((c = getc(fp)) != EOF)
{
switch (c)
{
case '\r':
case '\n':
/* ignore newlines */
break;
case '"':
/* double quotes have to be escaped so they aren't lost later */
if (position < max_length)
recipe[position++] = '\\';
if (position < max_length)
recipe[position++] = c;
break;
default:
if (position < max_length)
recipe[position++] = c;
break;
}
}
fclose(fp);
/* add a terminating \0 */
if (position < max_length)
recipe[position] = '\0';
else
{
error("talon: error: command longer than 32768 in '%s'\n", filename);
return NULL;
}
return recipe;
}
int main(int argc, char *argv[])
{
/* find the argument to -c then strip the talon related front section */
char *recipe = NULL;
int talon_returncode = 0;
#ifdef HAS_GETCOMMANDLINE
char *commandline= GetCommandLine();
DEBUG(("talon: commandline: %s\n", commandline));
/*
* The command line should be either,
* talon -c "some shell commands"
* or
* talon shell_script_file
*
* talon could be an absolute path and may have a .exe extension.
*/
recipe = strstr(commandline, "-c");
if (recipe)
{
/* there was a -c so extract the quoted commands */
while (*recipe != '"' && *recipe != '\0')
recipe++;
if (*recipe != '"') /* we found -c but no following quote */
{
error("talon: error: unquoted recipe in shell call '%s'\n", commandline);
return 1;
}
recipe++;
int recipelen = strlen(recipe);
if (recipelen > 0 && recipe[recipelen - 1] == '"')
recipe[recipelen - 1] = '\0'; /* remove trailing quote */
}
else
{
/* there was no -c so extract the argument as a filename */
recipe = strstr(commandline, "talon");
if (recipe)
{
/* find the first space */
while (!isspace(*recipe) && *recipe != '\0')
recipe++;
/* skip past the spaces */
while (isspace(*recipe))
recipe++;
recipe = read_recipe_from_file(recipe);
if (!recipe)
{
error("talon: error: bad script file in shell call '%s'\n", commandline);
return 1;
}
}
else
{
error("talon: error: no 'talon' in shell call '%s'\n", commandline);
return 1;
}
}
#else
/*
* The command line should be either,
* talon -c "some shell commands"
* or
* talon shell_script_file
*
* talon could be an absolute path and may have a .exe extension.
*/
switch (argc)
{
case 2:
recipe = read_recipe_from_file(argv[1]);
break;
case 3:
if (strcmp("-c", argv[1]) != 0)
{
error("talon: error: %s\n", "usage is 'talon -c command' or 'talon script_filename'");
return 1;
}
recipe = argv[2];
break;
default:
error("talon: error: %s\n", "usage is 'talon -c command' or 'talon script_filename'");
return 1;
}
#endif
/* did we get a recipe at all? */
if (!recipe)
{
error("talon: error: %s", "no recipe supplied to the shell.\n");
return 1;
}
/* remove any leading white space on the recipe */
while (isspace(*recipe))
recipe++;
/* turn debugging on? */
char *debugstr=talon_getenv("TALON_DEBUG");
if (debugstr)
{
loglevel=LOGDEBUG;
free(debugstr); debugstr=NULL;
}
DEBUG(("talon: recipe: %s\n", recipe));
char varname[VARNAMEMAX];
char varval[VARVALMAX];
int dotagging = 0;
int force_descramble_off = 0;
char *rp = recipe;
if (*rp == TALONDELIMITER) {
dotagging = 1;
/* there are some talon-specific settings
* in the command which must be stripped */
rp++;
char *out = varname;
char *stopout = varname + VARNAMEMAX - 1;
DEBUG(("talon: parameters found\n"));
while (*rp != '\0')
{
switch (*rp) {
case '=':
*out = '\0';
DEBUG(("talon: varname: %s\n",varname));
out = varval;
stopout = varval + VARVALMAX - 1;
break;
case ';':
*out = '\0';
DEBUG(("talon: varval: %s\n",varval));
talon_setenv(varname, varval);
out = varname;
stopout = varname + VARNAMEMAX - 1;
break;
default:
*out = *rp;
if (out < stopout)
out++;
break;
}
if (*rp == TALONDELIMITER)
{
rp++;
break;
}
rp++;
}
} else {
/* This is probably a $(shell) statement
* in make so no descrambling needed and
* tags are definitely not wanted as they
* would corrupt the expected output*/
force_descramble_off = 1;
}
/* Now take settings from the environment (having potentially modified it) */
if (talon_getenv("TALON_DEBUG"))
loglevel=LOGDEBUG;
int enverrors = 0;
char *shell = talon_getenv("TALON_SHELL");
if (!shell)
{
error("error: %s", "TALON_SHELL not set in environment\n");
enverrors++;
}
int timeout = -1;
char *timeout_str = talon_getenv("TALON_TIMEOUT");
if (timeout_str)
{
timeout = atoi(timeout_str);
free(timeout_str); timeout_str = NULL;
}
char *buildid = talon_getenv("TALON_BUILDID");
if (!buildid)
{
error("error: %s", "TALON_BUILDID not set in environment\n");
enverrors++;
}
char *attributes = talon_getenv("TALON_RECIPEATTRIBUTES");
if (!attributes)
{
error("error: %s", "TALON_RECIPEATTRIBUTES not set in environment\n");
enverrors++;
}
int max_retries = 0;
char *retries_str = talon_getenv("TALON_RETRIES");
if (retries_str)
{
max_retries = atoi(retries_str);
free(retries_str); retries_str = NULL;
}
int descramble = 0;
if (! force_descramble_off )
{
char *descramblestr = talon_getenv("TALON_DESCRAMBLE");
if (descramblestr)
{
if (*descramblestr == '0')
descramble = 0;
else
descramble = 1;
free(descramblestr); descramblestr = NULL;
}
}
/* Talon can look in a flags variable to alter it's behaviour */
int force_success = 0;
char *flags_str = talon_getenv("TALON_FLAGS");
if (flags_str)
{
int c;
for (c=0; flags_str[c] !=0; c++)
flags_str[c] = tolower(flags_str[c]);
if (strstr(flags_str, "forcesuccess"))
force_success = 1;
/* don't put <recipe> or <CDATA<[[ tags around the output. e.g. if it's XML already*/
if (strstr(flags_str, "rawoutput"))
{
dotagging = 0;
}
free(flags_str); flags_str = NULL;
}
/* Talon subprocesses need to have the "correct" shell variable set. */
talon_setenv("SHELL", shell);
/* we have allowed some errors to build up so that the user
* can see all of them before we stop and force the user
* to fix them
*/
if (enverrors)
{
return 1;
}
/* Run the recipe repeatedly until the retry count expires or
* it succeeds.
*/
int attempt = 0, retries = max_retries;
proc *p = NULL;
char *args[5];
char *qrp=rp;
#ifdef HAS_GETCOMMANDLINE
/* re-quote the argument to -c since this helps windows deal with it */
int qrpsize = strlen(rp) + 3;
qrp = malloc(qrpsize);
qrp[0] = '"';
strcpy(&qrp[1], rp);
qrp[qrpsize-2] = '"';
qrp[qrpsize-1] = '\0';
#endif
int index = 0;
args[index++] = shell;
if (dotagging) /* don't do bash -x for non-tagged commands e.g. $(shell output) */
args[index++] = "-x";
args[index++] = "-c";
args[index++] = qrp;
args[index++] = NULL;
/* get the semaphore ready */
talon_sem.name = buildid;
talon_sem.timeout = timeout;
do
{
char talon_attempt[TALON_ATTEMPT_STRMAX];
double start_time = getseconds();
attempt++;
snprintf(talon_attempt, TALON_ATTEMPT_STRMAX-1, "%d", attempt);
talon_attempt[TALON_ATTEMPT_STRMAX - 1] = '\0';
talon_setenv("TALON_ATTEMPT", talon_attempt);
p = process_run(shell, args, timeout);
double end_time = getseconds();
if (p)
{
char status[STATUS_STRMAX];
char timestat[STATUS_STRMAX];
talon_returncode = p->returncode;
if (dotagging)
{
char *forcesuccessstr = force_success == 0 ? "" : " forcesuccess='FORCESUCCESS'";
if (p->returncode != 0)
{
char *exitstr = retries > 0 ? "retry" : "failed";
snprintf(status, STATUS_STRMAX - 1, "\n<status exit='%s' code='%d' attempt='%d'%s />", exitstr, p->returncode, attempt, forcesuccessstr );
} else {
snprintf(status, STATUS_STRMAX - 1, "\n<status exit='ok' attempt='%d'%s />", attempt, forcesuccessstr );
}
status[STATUS_STRMAX-1] = '\0';
snprintf(timestat, STATUS_STRMAX - 1, "<time start='%.5f' elapsed='%.3f' />",start_time, end_time-start_time );
timestat[STATUS_STRMAX-1] = '\0';
prependattributes(p->output, attributes);
if (dotagging) {
}
buffer_append(p->output, "\n]]>", 4);
buffer_append(p->output, timestat, strlen(timestat));
buffer_append(p->output, status, strlen(status));
buffer_append(p->output, "\n</recipe>\n", 11);
}
unsigned int iterator = 0;
byteblock *bb;
if (descramble)
sema_wait(&talon_sem);
while ((bb = buffer_getbytes(p->output, &iterator)))
{
write(STDOUT_FILENO, &bb->byte0, bb->fill);
}
if (descramble)
sema_release(&talon_sem);
if (p->returncode == 0 || force_success)
{
process_free(&p);
break;
}
process_free(&p);
} else {
error("error: failed to run shell: %s: check the SHELL environment variable.\n", args[0]);
return 1;
}
retries--;
}
while (retries >= 0);
if (buildid) free(buildid); buildid = NULL;
if (attributes) free(attributes); attributes = NULL;
if (shell) free(shell); shell = NULL;
if (force_success)
return 0;
else
return talon_returncode;
}