Exemplo n.º 1
0
void sinsp_filter_check::add_filter_value(const char* str, uint32_t len, uint16_t i)
{

	if (i >= m_val_storages.size())
	{
		m_val_storages.push_back(vector<uint8_t>(256));
	}

	parse_filter_value(str, len, filter_value_p(i), filter_value(i).size());

	// XXX/mstemm this doesn't work if someone called
	// add_filter_value more than once for a given index.
	filter_value_t item(filter_value_p(i), len);
	m_val_storages_members.insert(item);

	if(len < m_val_storages_min_size)
	{
		m_val_storages_min_size = len;
	}

	if(len > m_val_storages_max_size)
	{
		m_val_storages_max_size = len;
	}

	// If the operator is CO_PMATCH, also add the value to the paths set.
	if (m_cmpop == CO_PMATCH)
	{
		m_val_storages_paths.add_search_path(item);
	}
}
Exemplo n.º 2
0
void sinsp_filter_check::add_filter_value(const char* str, uint32_t len, uint16_t i)
{

	if (i >= m_val_storages.size())
	{
		m_val_storages.push_back(vector<uint8_t>(256));
	}

	parse_filter_value(str, len, filter_value_p(i), filter_value(i).size());
}
Exemplo n.º 3
0
char* sinsp_filter_check::rawval_to_string(uint8_t* rawval, const filtercheck_field_info* finfo, uint32_t len)
{
	char* prfmt;

	ASSERT(rawval != NULL);
	ASSERT(finfo != NULL);

	switch(finfo->m_type)
	{
		case PT_INT8:
			if(finfo->m_print_format == PF_DEC ||
			   finfo->m_print_format == PF_ID)
			{
				prfmt = (char*)"%" PRId8;
			}
			else if(finfo->m_print_format == PF_HEX)
			{
				prfmt = (char*)"%" PRIX8;
			}
			else
			{
				ASSERT(false);
				return NULL;
			}

			snprintf(m_getpropertystr_storage,
					 sizeof(m_getpropertystr_storage),
					 prfmt, *(int8_t *)rawval);
			return m_getpropertystr_storage;
		case PT_INT16:
			if(finfo->m_print_format == PF_DEC ||
			   finfo->m_print_format == PF_ID)
			{
				prfmt = (char*)"%" PRId16;
			}
			else if(finfo->m_print_format == PF_HEX)
			{
				prfmt = (char*)"%" PRIX16;
			}
			else
			{
				ASSERT(false);
				return NULL;
			}

			snprintf(m_getpropertystr_storage,
					 sizeof(m_getpropertystr_storage),
					 prfmt, *(int16_t *)rawval);
			return m_getpropertystr_storage;
		case PT_INT32:
			if(finfo->m_print_format == PF_DEC ||
			   finfo->m_print_format == PF_ID)
			{
				prfmt = (char*)"%" PRId32;
			}
			else if(finfo->m_print_format == PF_HEX)
			{
				prfmt = (char*)"%" PRIX32;
			}
			else
			{
				ASSERT(false);
				return NULL;
			}

			snprintf(m_getpropertystr_storage,
					 sizeof(m_getpropertystr_storage),
					 prfmt, *(int32_t *)rawval);
			return m_getpropertystr_storage;
		case PT_INT64:
		case PT_PID:
		case PT_ERRNO:
			if(finfo->m_print_format == PF_DEC ||
			   finfo->m_print_format == PF_ID)
			{
				prfmt = (char*)"%" PRId64;
			}
			else if(finfo->m_print_format == PF_10_PADDED_DEC)
			{
				prfmt = (char*)"%09" PRId64;
			}
			else if(finfo->m_print_format == PF_HEX)
			{
				prfmt = (char*)"%" PRIX64;
			}
			else
			{
				prfmt = (char*)"%" PRId64;
			}

			snprintf(m_getpropertystr_storage,
					 sizeof(m_getpropertystr_storage),
					 prfmt, *(int64_t *)rawval);
			return m_getpropertystr_storage;
		case PT_L4PROTO: // This can be resolved in the future
		case PT_UINT8:
			if(finfo->m_print_format == PF_DEC ||
			   finfo->m_print_format == PF_ID)
			{
				prfmt = (char*)"%" PRIu8;
			}
			else if(finfo->m_print_format == PF_HEX)
			{
				prfmt = (char*)"%" PRIu8;
			}
			else
			{
				ASSERT(false);
				return NULL;
			}

			snprintf(m_getpropertystr_storage,
					 sizeof(m_getpropertystr_storage),
					 prfmt, *(uint8_t *)rawval);
			return m_getpropertystr_storage;
		case PT_PORT: // This can be resolved in the future
		case PT_UINT16:
			if(finfo->m_print_format == PF_DEC ||
			   finfo->m_print_format == PF_ID)
			{
				prfmt = (char*)"%" PRIu16;
			}
			else if(finfo->m_print_format == PF_HEX)
			{
				prfmt = (char*)"%" PRIu16;
			}
			else
			{
				ASSERT(false);
				return NULL;
			}

			snprintf(m_getpropertystr_storage,
					 sizeof(m_getpropertystr_storage),
					 prfmt, *(uint16_t *)rawval);
			return m_getpropertystr_storage;
		case PT_UINT32:
			if(finfo->m_print_format == PF_DEC ||
			   finfo->m_print_format == PF_ID)
			{
				prfmt = (char*)"%" PRIu32;
			}
			else if(finfo->m_print_format == PF_HEX)
			{
				prfmt = (char*)"%" PRIu32;
			}
			else
			{
				ASSERT(false);
				return NULL;
			}

			snprintf(m_getpropertystr_storage,
					 sizeof(m_getpropertystr_storage),
					 prfmt, *(uint32_t *)rawval);
			return m_getpropertystr_storage;
		case PT_UINT64:
		case PT_RELTIME:
		case PT_ABSTIME:
			if(finfo->m_print_format == PF_DEC ||
			   finfo->m_print_format == PF_ID)
			{
				prfmt = (char*)"%" PRIu64;
			}
			else if(finfo->m_print_format == PF_10_PADDED_DEC)
			{
				prfmt = (char*)"%09" PRIu64;
			}
			else if(finfo->m_print_format == PF_HEX)
			{
				prfmt = (char*)"%" PRIX64;
			}
			else
			{
				ASSERT(false);
				return NULL;
			}

			snprintf(m_getpropertystr_storage,
					 sizeof(m_getpropertystr_storage),
					 prfmt, *(uint64_t *)rawval);
			return m_getpropertystr_storage;
		case PT_CHARBUF:
			return (char*)rawval;
		case PT_BYTEBUF:
			if(rawval[len] == 0)
			{
				return (char*)rawval;
			}
			else
			{
				ASSERT(len < 1024 * 1024);

				if(len >= filter_value().size())
				{
					filter_value().resize(len + 1);
				}

				memcpy(filter_value_p(), rawval, len);
				filter_value_p()[len] = 0;
				return (char*)filter_value_p();
			}
		case PT_SOCKADDR:
			ASSERT(false);
			return NULL;
		case PT_SOCKFAMILY:
			ASSERT(false);
			return NULL;
		case PT_BOOL:
			if(*(uint32_t*)rawval != 0)
			{
				return (char*)"true";
			}
			else
			{
				return (char*)"false";
			}
		case PT_IPV4ADDR:
			snprintf(m_getpropertystr_storage,
						sizeof(m_getpropertystr_storage),
						"%" PRIu8 ".%" PRIu8 ".%" PRIu8 ".%" PRIu8,
						rawval[0],
						rawval[1],
						rawval[2],
						rawval[3]);
			return m_getpropertystr_storage;
		case PT_DOUBLE:
			snprintf(m_getpropertystr_storage,
					 sizeof(m_getpropertystr_storage),
					 "%.1lf", *(double*)rawval);
			return m_getpropertystr_storage;
		default:
			ASSERT(false);
			throw sinsp_exception("wrong event type " + to_string((long long) finfo->m_type));
	}
}