/** * Copyright (C) ARM Limited 2010-2013. All rights reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 as * published by the Free Software Foundation. */ #include #include #include #include "ConfigurationXML.h" #include "Driver.h" #include "Logging.h" #include "OlyUtility.h" #include "SessionData.h" static const char* ATTR_COUNTER = "counter"; static const char* ATTR_REVISION = "revision"; static const char* ATTR_EVENT = "event"; static const char* ATTR_COUNT = "count"; ConfigurationXML::ConfigurationXML() { const char * configuration_xml; unsigned int configuration_xml_len; getDefaultConfigurationXml(configuration_xml, configuration_xml_len); char path[PATH_MAX]; if (gSessionData->mConfigurationXMLPath) { strncpy(path, gSessionData->mConfigurationXMLPath, PATH_MAX); } else { if (util->getApplicationFullPath(path, PATH_MAX) != 0) { logg->logMessage("Unable to determine the full path of gatord, the cwd will be used"); } strncat(path, "configuration.xml", PATH_MAX - strlen(path) - 1); } mConfigurationXML = util->readFromDisk(path); for (int retryCount = 0; retryCount < 2; ++retryCount) { if (mConfigurationXML == NULL) { logg->logMessage("Unable to locate configuration.xml, using default in binary"); // null-terminate configuration_xml mConfigurationXML = (char*)malloc(configuration_xml_len + 1); memcpy(mConfigurationXML, (const void*)configuration_xml, configuration_xml_len); mConfigurationXML[configuration_xml_len] = 0; } int ret = parse(mConfigurationXML); if (ret == 1) { // remove configuration.xml on disk to use the default if (remove(path) != 0) { logg->logError(__FILE__, __LINE__, "Invalid configuration.xml file detected and unable to delete it. To resolve, delete configuration.xml on disk"); handleException(); } logg->logMessage("Invalid configuration.xml file detected and removed"); // Free the current configuration and reload free((void*)mConfigurationXML); mConfigurationXML = NULL; continue; } break; } validate(); } ConfigurationXML::~ConfigurationXML() { if (mConfigurationXML) { free((void*)mConfigurationXML); } } int ConfigurationXML::parse(const char* configurationXML) { mxml_node_t *tree, *node; int ret; // clear counter overflow gSessionData->mCounterOverflow = 0; mIndex = 0; // disable all counters prior to parsing the configuration xml for (int i = 0; i < MAX_PERFORMANCE_COUNTERS; i++) { gSessionData->mCounters[i].setEnabled(false); } tree = mxmlLoadString(NULL, configurationXML, MXML_NO_CALLBACK); node = mxmlGetFirstChild(tree); while (node && mxmlGetType(node) != MXML_ELEMENT) node = mxmlWalkNext(node, tree, MXML_NO_DESCEND); ret = configurationsTag(node); node = mxmlGetFirstChild(node); while (node) { if (mxmlGetType(node) != MXML_ELEMENT) { node = mxmlWalkNext(node, tree, MXML_NO_DESCEND); continue; } configurationTag(node); node = mxmlWalkNext(node, tree, MXML_NO_DESCEND); } mxmlDelete(tree); return ret; } void ConfigurationXML::validate(void) { for (int i = 0; i < MAX_PERFORMANCE_COUNTERS; i++) { const Counter & counter = gSessionData->mCounters[i]; if (counter.isEnabled()) { if (strcmp(counter.getType(), "") == 0) { logg->logError(__FILE__, __LINE__, "Invalid required attribute in configuration.xml:\n counter=\"%s\"\n event=%d\n", counter.getType(), counter.getEvent()); handleException(); } // iterate through the remaining enabled performance counters for (int j = i + 1; j < MAX_PERFORMANCE_COUNTERS; j++) { const Counter & counter2 = gSessionData->mCounters[j]; if (counter2.isEnabled()) { // check if the types are the same if (strcmp(counter.getType(), counter2.getType()) == 0) { logg->logError(__FILE__, __LINE__, "Duplicate performance counter type in configuration.xml: %s", counter.getType()); handleException(); } } } } } } #define CONFIGURATION_REVISION 3 int ConfigurationXML::configurationsTag(mxml_node_t *node) { const char* revision_string; revision_string = mxmlElementGetAttr(node, ATTR_REVISION); if (!revision_string) { return 1; //revision issue; } int revision = strtol(revision_string, NULL, 10); if (revision < CONFIGURATION_REVISION) { return 1; // revision issue } // A revision >= CONFIGURATION_REVISION is okay // Greater than can occur when Streamline is newer than gator return 0; } void ConfigurationXML::configurationTag(mxml_node_t *node) { // handle all other performance counters if (mIndex >= MAX_PERFORMANCE_COUNTERS) { mIndex++; gSessionData->mCounterOverflow = mIndex; return; } // read attributes Counter & counter = gSessionData->mCounters[mIndex]; counter.clear(); if (mxmlElementGetAttr(node, ATTR_COUNTER)) counter.setType(mxmlElementGetAttr(node, ATTR_COUNTER)); if (mxmlElementGetAttr(node, ATTR_EVENT)) counter.setEvent(strtol(mxmlElementGetAttr(node, ATTR_EVENT), NULL, 16)); if (mxmlElementGetAttr(node, ATTR_COUNT)) counter.setCount(strtol(mxmlElementGetAttr(node, ATTR_COUNT), NULL, 10)); counter.setEnabled(true); // Associate a driver with each counter for (Driver *driver = Driver::getHead(); driver != NULL; driver = driver->getNext()) { if (driver->claimCounter(counter)) { if (counter.getDriver() != NULL) { logg->logError(__FILE__, __LINE__, "More than one driver has claimed %s:%i", counter.getType(), counter.getEvent()); handleException(); } counter.setDriver(driver); } } // If no driver is associated with the counter, disable it if (counter.getDriver() == NULL) { logg->logMessage("No driver has claimed %s:%i", counter.getType(), counter.getEvent()); counter.setEnabled(false); } if (counter.isEnabled()) { // update counter index mIndex++; } } void ConfigurationXML::getDefaultConfigurationXml(const char * & xml, unsigned int & len) { #include "configuration_xml.h" // defines and initializes char configuration_xml[] and int configuration_xml_len xml = (const char *)configuration_xml; len = configuration_xml_len; }