potential fix for subprocess execution (exit code was wonky)

master
Phanes 2017-12-02 04:22:09 -05:00
parent 07a850dcae
commit 6fd80a31c5
6 changed files with 115 additions and 100 deletions

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@ -1,7 +1,7 @@
cmake_minimum_required(VERSION 3.5)
project(ftests)
set(CMAKE_CXX_STANDARD 11)
set(CMAKE_CXX_FLAGS_DEBUG "${CMAKE_CXX_FLAGS_DEBUG} -std=c++1z -O0 -DDEBUG=1")
set(SOURCE_FILES examplar.cpp src/loaders/loaders.cpp src/loaders/loaders.h src/json/jsoncpp.cpp src/loaders/JSON_Loader.cpp src/loaders/JSON_Loader.h src/loaders/helpers.cpp src/loaders/helpers.h src/loaders/Suite.cpp src/loaders/Suite.h src/loaders/Plan.cpp src/loaders/Plan.h src/loaders/Conf.cpp src/loaders/Conf.h src/loaders/Unit.cpp src/loaders/Unit.h src/loaders/Task.cpp src/loaders/Task.h src/sproc/Sproc.cpp src/sproc/Sproc.h)
add_executable(ftests ${SOURCE_FILES})

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@ -6,7 +6,7 @@
"rectifier": "/usr/bin/true",
"active": true,
"required": true,
"rectify": false
"rectify": true
},
{
"name": "independent test 2",

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@ -114,12 +114,17 @@ void Plan::load_definitions( Suite unit_definitions, bool verbose )
void Plan::execute( bool verbose )
{
// for each task in this plan
for ( int i = 0; i < this->tasks.size(); i++ )
{
if ( verbose ) {
std::cout << "Executing task \"" << this->tasks[i].get_name() << "\"." << std::endl;
}
this->tasks[i].execute( verbose );
}
// for ( int i = 0; i < this->tasks.size(); i++ )
// {
// if ( verbose ) {
// std::cout << "Executing task \"" << this->tasks[i].get_name() << "\"." << std::endl;
std::cout << "Executing task \"" << this->tasks[0].get_name() << "\"." << std::endl;
// }
// this->tasks[i].execute( verbose );
this->tasks[0].execute( verbose );
// for testing a logic issue in Task.execute(), remove when done
// throw Plan_InvalidTaskIndex();
// }
}

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@ -48,12 +48,14 @@ void Suite::load_units_file( std::string filename, bool verbose )
{
// assemble the unit from json_root using the built-in value operator
tmp_U.load_root( this->json_root[ index ] );
if ( tmp_U.get_active() ) {
// append to this->units
this->units.push_back( tmp_U );
if ( verbose ) {
std::cout << "Added unit \"" << tmp_U.get_name() << "\" to Suite." << std::endl;
}
}
}
}
/// Suite::get_unit - returns a contained Unit identified by name attribute.

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@ -4,28 +4,33 @@
#include "../sproc/Sproc.h"
/// Task_InvalidDataStructure - Exception thrown when a Task is defined with invalid JSON.
class Task_InvalidDataStructure: public std::runtime_error { public:
class Task_InvalidDataStructure: public std::runtime_error {
public:
Task_InvalidDataStructure(): std::runtime_error("Task: Attempted to access a member of a Task that is not set.") {}
};
/// Task_InvalidDataStructure - Exception thrown when a Task is defined with invalid JSON.
class Task_NotReady: public std::runtime_error { public:
class Task_NotReady: public std::runtime_error {
public:
Task_NotReady(): std::runtime_error("Task: Attempted to access a unit of a Task that is not defined.") {}
};
/// Task_RequiredButFailedTask - Exception thrown when a Task is failed but required, and rectification also failed.
class Task_RequiredButFailedTask: public std::runtime_error { public:
Task_RequiredButFailedTask(): std::runtime_error("Task: Attempted to access a unit of a Task that failed, but was required, and the corresponding rectification target also failed..") {}
class Task_RequiredButFailedTask: public std::runtime_error {
public:
Task_RequiredButFailedTask(): std::runtime_error("Task: Attempted to execute a Task that failed and was required.") {}
};
/// Task_RequiredButFailedTask - Exception thrown when a Task is failed but required, and rectification also failed but returned with a zero exit code (dont try to fool the check).
class Task_RequiredButRectifierDoesNotHeal: public std::runtime_error { public:
class Task_RequiredButRectifierDoesNotHeal: public std::runtime_error {
public:
Task_RequiredButRectifierDoesNotHeal(): std::runtime_error("Task: The rectification script was executed and reported success, but did not actually heal the faulty condition of the Task target.") {}
};
/// Task::Task() - Constructor for the Task class. The Task is the building block of a Plan indicating of which Unit to
/// execute, and its dependencies on other units to have already been completed successfully.
Task::Task() {
Task::Task()
{
// it hasn't executed yet.
this->complete = false;
@ -39,10 +44,10 @@ Task::Task() {
/// \param verbose - Whether to print verbose information to STDOUT.
void Task::load_root(Json::Value loader_root, bool verbose )
{
if ( loader_root.isMember("name") )
{
if ( loader_root.isMember("name") ) {
this->name = loader_root.get("name", "?").asString();
} else {
}
else {
throw Task_InvalidDataStructure();
}
@ -50,14 +55,11 @@ void Task::load_root(Json::Value loader_root, bool verbose )
Json::Value des_dep_root = loader_root.get("dependencies", 0);
// iterate through each member of that obj
for ( int i = 0; i < des_dep_root.size(); i++ )
{
for ( int i = 0; i < des_dep_root.size(); i++ ) {
// add each string to dependencies
if ( des_dep_root[i].asString() != "" )
{
if ( des_dep_root[i].asString() != "" ) {
this->dependencies.push_back( des_dep_root[i].asString() );
if ( verbose )
{
if ( verbose ) {
std::cout << "Added dependency \"" << des_dep_root[i].asString() << "\" to task \"" << this->get_name() << "\"." << std::endl;
}
}
@ -77,20 +79,21 @@ std::string Task::get_name()
void Task::load_definition( Unit selected_unit, bool verbose )
{
this->definition = selected_unit;
if ( verbose )
{
if ( verbose ) {
std::cout << "Loaded definition \"" << selected_unit.get_name() << "\" for task \"" << this->get_name() << "\"." << std::endl;
}
this->defined = true;
}
/// Task::is_complete - Indicator if the task executed successfully.
bool Task::is_complete() {
bool Task::is_complete()
{
return this->complete;
}
/// Task::has_definition - Indicator if the task has attached its definition from a Suite.
bool Task::has_definition() {
bool Task::has_definition()
{
return this->defined;
}
@ -103,7 +106,9 @@ void Task::execute( bool verbose )
// PREWORK
// throw if unit not coupled to all necessary values since Task is stateful (stateful is okay)
if (! this->has_definition() ) { throw Task_NotReady(); }
if (! this->has_definition() ) {
throw Task_NotReady();
}
// get the name
std::string task_name = this->definition.get_name();
@ -114,8 +119,7 @@ void Task::execute( bool verbose )
std::string target_command = this->definition.get_target();
// if we're in verbose mode, do some verbose things
if ( verbose )
{
if ( verbose ) {
std::cout << "\tUsing unit \"" << task_name << "\"." << std::endl;
std::cout << "\tExecuting target \"" << target_command << "\"." << std::endl;
}
@ -124,23 +128,18 @@ void Task::execute( bool verbose )
int return_code = Sproc::execute( target_command );
// d[0] check exit code of target
if (return_code == 0)
{
if (return_code == 0) {
// Zero d[0] return from target execution, good to return
if ( verbose )
{
if ( verbose ) {
std::cout << "\tTarget " << task_name << " succeeded." << std::endl;
}
// next
return;
} else {
// Non-Zero d[0] from initial target execution, get to d[1]
std::cout << "\tTarget \"" << task_name << "\" failed with exit code " << return_code << "." << std::endl;
// check if rectify pattern is enabled d[1]
if ( this->definition.get_rectify() )
{
if ( this->definition.get_rectify() ) {
// yes d[1]
std::cout << "\tRectification pattern is enabled for \"" << task_name << "\"." << std::endl;
// execute RECTIFIER
@ -149,23 +148,19 @@ void Task::execute( bool verbose )
int rectifier_error = Sproc::execute( rectifier_command );
// d[3] check exit code of rectifier
if ( rectifier_error )
{
if (rectifier_error) {
//d[3] non-zero
std::cout << "\tRectification of \"" << task_name << "\" failed with exit code " << rectifier_error << "." << std::endl;
// d[2] check if REQUIRED
if ( this->definition.get_required() )
{
if ( this->definition.get_required() ) {
// d[2] yes
// halt/exception
throw Task_RequiredButFailedTask();
} else {
}
// d[2] no
// next
return;
}
} else {
// d[3] zero
// execute target
@ -175,38 +170,27 @@ void Task::execute( bool verbose )
// d[4] exit code of target retry
if (retry_code == 0) {
// d[4] zero
return;
} else {
}
// d[4] non-zero
// d[5] required check
if ( this->definition.get_required() )
{
if ( this->definition.get_required() ) {
// d[5] yes
std::cout << "\tTask \"" << task_name << "\" is required but rectification did not heal." << std::endl;
throw Task_RequiredButRectifierDoesNotHeal();
} else {
}
// d[5] no
// next
return;
}
}
}
} else {
// no d[1]
std::cout << "\tRectification is not enabled for \"" << task_name << "\"." << std::endl;
// required d[2]
if ( this->definition.get_required() )
{
if ( this->definition.get_required() ) {
// d[2] yes
// This is executing.....
std::cout << "\tThis task is required to continue the plan." << std::endl;
// but these are NOT executing?????
throw Task_RequiredButFailedTask();
return;
} else {
// d[2] no
} // d[2] no
std::cout << "\tThis task is not required to continue the plan." << std::endl;
return;
}
}
}
}

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@ -1,6 +1,7 @@
#include "Sproc.h"
#include <unistd.h>
#include <cstring>
#include <wait.h>
/// Sproc::execute
///
@ -13,14 +14,17 @@ int Sproc::execute(std::string input) {
int stdin_pipe[2];
int stderr_pipe[2];
int stdout_pipe[2];
int child_pid;
pid_t child_pid, w;
char nChar;
int child_exit_code;
int child_exit_code = -666;
// experimental
int status;
if ( pipe(stdin_pipe) < 0 )
{
perror("allocating pipe for child input redirect");
return -1;
exit(-1);
}
if ( pipe(stdout_pipe) < 0 )
@ -28,14 +32,14 @@ int Sproc::execute(std::string input) {
close(stdin_pipe[PIPE_READ]);
close(stdin_pipe[PIPE_WRITE]);
perror("allocating pipe for child output redirect");
return -1;
exit(-1);
}
if ( pipe(stderr_pipe) < 0 ) {
close(stderr_pipe[PIPE_READ]);
close(stderr_pipe[PIPE_WRITE]);
perror("allocating pipe for error redirect");
return -1;
exit(-1);
}
@ -74,13 +78,31 @@ int Sproc::execute(std::string input) {
// replace this with any exec* function find easier to use ("man exec")
child_exit_code = system( input.c_str() );
// if we get here at all, an error occurred, but we are in the child
// process, so just exit
return WEXITSTATUS(child_exit_code);
exit(WEXITSTATUS(child_exit_code));
} else if (child_pid > 0) {
// parent continues here
do {
w = waitpid(child_pid, &child_exit_code, WUNTRACED | WCONTINUED);
if (w == -1) {
perror("waitpid");
exit(EXIT_FAILURE);
}
if (WIFEXITED(child_exit_code)) {
;;
//printf("exited, status=%d\n", WEXITSTATUS(child_exit_code));
} else if (WIFSIGNALED(child_exit_code)) {
printf("killed by signal %d\n", WTERMSIG(child_exit_code));
} else if (WIFSTOPPED(child_exit_code)) {
printf("stopped by signal %d\n", WSTOPSIG(child_exit_code));
} else if (WIFCONTINUED(child_exit_code)) {
printf("continued\n");
}
} while (!WIFEXITED(child_exit_code) && !WIFSIGNALED(child_exit_code));
// close unused file descriptors, these are for child only
close(stdin_pipe[PIPE_READ]);
close(stdout_pipe[PIPE_WRITE]);
@ -100,6 +122,7 @@ int Sproc::execute(std::string input) {
close(stderr_pipe[PIPE_READ]);
} else {
// failed to create child
std::cout << "Failed to create child." << std::endl;
close(stdin_pipe[PIPE_READ]);
close(stdin_pipe[PIPE_WRITE]);
@ -109,6 +132,7 @@ int Sproc::execute(std::string input) {
close(stderr_pipe[PIPE_READ]);
close(stderr_pipe[PIPE_WRITE]);
}
child_exit_code = WEXITSTATUS( child_exit_code );
return WEXITSTATUS(child_exit_code);
return child_exit_code;
}