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sledge-1/runtime/include/sandbox_functions.h

241 lines
8.6 KiB

#pragma once
#include <sys/mman.h>
#include <stddef.h>
#include <stdint.h>
#include "client_socket.h"
#include "panic.h"
#include "sandbox_request.h"
#include "memlogging.h"
/***************************
* Public API *
**************************/
struct sandbox *sandbox_allocate(struct sandbox_request *sandbox_request);
void sandbox_free(struct sandbox *sandbox);
void sandbox_main(struct sandbox *sandbox);
void sandbox_switch_to(struct sandbox *next_sandbox);
static inline void
sandbox_close_http(struct sandbox *sandbox)
{
assert(sandbox != NULL);
int rc = epoll_ctl(worker_thread_epoll_file_descriptor, EPOLL_CTL_DEL, sandbox->client_socket_descriptor, NULL);
if (unlikely(rc < 0)) panic_err();
client_socket_close(sandbox->client_socket_descriptor, &sandbox->client_address);
}
/**
* Remove the client fd from epoll
*/
static inline void
sandbox_remove_from_epoll(struct sandbox *sandbox)
{
assert(sandbox != NULL);
int rc = epoll_ctl(worker_thread_epoll_file_descriptor, EPOLL_CTL_DEL, sandbox->client_socket_descriptor, NULL);
if (unlikely(rc < 0)) panic_err();
}
/**
* Initializes a sandbox fd ready for use with the proper preopen magic
* @param sandbox
* @return index of handle we preopened or -1 on error (sandbox is null or all io_handles are exhausted)
*/
static inline int
sandbox_initialize_file_descriptor(struct sandbox *sandbox)
{
if (!sandbox) return -1;
int sandbox_fd;
for (sandbox_fd = 0; sandbox_fd < SANDBOX_MAX_FD_COUNT; sandbox_fd++) {
if (sandbox->file_descriptors[sandbox_fd] < 0) break;
}
if (sandbox_fd == SANDBOX_MAX_FD_COUNT) return -1;
sandbox->file_descriptors[sandbox_fd] = SANDBOX_FILE_DESCRIPTOR_PREOPEN_MAGIC;
return sandbox_fd;
}
/**
* Free Linear Memory, leaving stack in place
* @param sandbox
*/
static inline void
sandbox_free_linear_memory(struct sandbox *sandbox)
{
int rc = munmap(sandbox->linear_memory_start, SANDBOX_MAX_MEMORY + PAGE_SIZE);
if (rc == -1) panic("sandbox_free_linear_memory - munmap failed\n");
sandbox->linear_memory_start = NULL;
}
/**
* Given a sandbox, returns the module that sandbox is executing
* @param sandbox the sandbox whose module we want
* @return the module of the provided sandbox
*/
static inline struct module *
sandbox_get_module(struct sandbox *sandbox)
{
if (!sandbox) return NULL;
return sandbox->module;
}
/**
* Resolve a sandbox's fd to the host fd it maps to
* @param sandbox
* @param sandbox_fd index into the sandbox's fd table
* @returns file descriptor or -1 in case of error
*/
static inline int
sandbox_get_file_descriptor(struct sandbox *sandbox, int sandbox_fd)
{
if (!sandbox) return -1;
if (sandbox_fd >= SANDBOX_MAX_FD_COUNT || sandbox_fd < 0) return -1;
return sandbox->file_descriptors[sandbox_fd];
}
static inline uint64_t
sandbox_get_priority(void *element)
{
struct sandbox *sandbox = (struct sandbox *)element;
return sandbox->absolute_deadline;
};
/**
* Maps a sandbox fd to an underlying host fd
* Returns error condition if the file_descriptor to set does not contain sandbox preopen magic
* @param sandbox
* @param sandbox_fd index of the sandbox fd we want to set
* @param file_descriptor the file descripter we want to set it to
* @returns the index that was set or -1 in case of error
*/
static inline int
sandbox_set_file_descriptor(struct sandbox *sandbox, int sandbox_fd, int host_fd)
{
if (!sandbox) return -1;
if (sandbox_fd >= SANDBOX_MAX_FD_COUNT || sandbox_fd < 0) return -1;
if (host_fd < 0 || sandbox->file_descriptors[sandbox_fd] != SANDBOX_FILE_DESCRIPTOR_PREOPEN_MAGIC) return -1;
sandbox->file_descriptors[sandbox_fd] = host_fd;
return sandbox_fd;
}
/**
* Map the host stdin, stdout, stderr to the sandbox
* @param sandbox - the sandbox on which we are initializing stdio
*/
static inline void
sandbox_initialize_stdio(struct sandbox *sandbox)
{
int sandbox_fd, rc;
for (int host_fd = 0; host_fd <= 2; host_fd++) {
sandbox_fd = sandbox_initialize_file_descriptor(sandbox);
assert(sandbox_fd == host_fd);
rc = sandbox_set_file_descriptor(sandbox, sandbox_fd, host_fd);
assert(rc != -1);
}
}
static inline void
sandbox_open_http(struct sandbox *sandbox)
{
assert(sandbox != NULL);
http_parser_init(&sandbox->http_parser, HTTP_REQUEST);
/* Set the sandbox as the data the http-parser has access to */
sandbox->http_parser.data = sandbox;
/* Freshly allocated sandbox going runnable for first time, so register client socket with epoll */
struct epoll_event accept_evt;
accept_evt.data.ptr = (void *)sandbox;
accept_evt.events = EPOLLIN | EPOLLOUT | EPOLLET;
int rc = epoll_ctl(worker_thread_epoll_file_descriptor, EPOLL_CTL_ADD, sandbox->client_socket_descriptor,
&accept_evt);
if (unlikely(rc < 0)) panic_err();
}
/**
* Prints key performance metrics for a sandbox to runtime_sandbox_perf_log in runtime
* This is defined by an environment variable
* @param sandbox
*/
static inline void
sandbox_print_perf(struct sandbox *sandbox)
{
#ifndef LOG_RUNTIME_FILE_LOG
return;
#endif
/* If the log was not defined by an environment variable, early out */
if (runtime_sandbox_perf_log == NULL) return;
uint32_t total_time_us = sandbox->total_time / runtime_processor_speed_MHz;
uint32_t queued_us = (sandbox->allocation_timestamp - sandbox->enqueue_timestamp)
/ runtime_processor_speed_MHz;
uint32_t initializing_us = sandbox->initializing_duration / runtime_processor_speed_MHz;
uint32_t runnable_us = sandbox->runnable_duration / runtime_processor_speed_MHz;
uint32_t running_us = sandbox->running_duration / runtime_processor_speed_MHz;
uint32_t blocked_us = sandbox->blocked_duration / runtime_processor_speed_MHz;
uint32_t returned_us = sandbox->returned_duration / runtime_processor_speed_MHz;
/*
* Assumption: A sandbox is never able to free pages. If linear memory management
* becomes more intelligent, then peak linear memory size needs to be tracked
* seperately from current linear memory size.
*/
fprintf(runtime_sandbox_perf_log, "%lu,%s():%d,%s,%u,%u,%u,%u,%u,%u,%u,%u,%u\n", sandbox->id,
sandbox->module->name, sandbox->module->port, sandbox_state_stringify(sandbox->state),
sandbox->module->relative_deadline_us, total_time_us, queued_us, initializing_us, runnable_us,
running_us, blocked_us, returned_us, sandbox->linear_memory_size);
}
/**
* Prints key performance metrics for a sandbox to memory in runtime
* @param sandbox
*/
static inline void
sandbox_mem_print_perf(struct sandbox *sandbox)
{
#ifndef LOG_RUNTIME_MEM_LOG
return;
#endif
/* If the log was not defined by an environment variable, early out */
if (runtime_sandbox_perf_log == NULL) return;
uint32_t total_time_us = sandbox->total_time / runtime_processor_speed_MHz;
uint32_t queued_us = (sandbox->allocation_timestamp - sandbox->enqueue_timestamp)
/ runtime_processor_speed_MHz;
uint32_t initializing_us = sandbox->initializing_duration / runtime_processor_speed_MHz;
uint32_t runnable_us = sandbox->runnable_duration / runtime_processor_speed_MHz;
uint32_t running_us = sandbox->running_duration / runtime_processor_speed_MHz;
uint32_t blocked_us = sandbox->blocked_duration / runtime_processor_speed_MHz;
uint32_t returned_us = sandbox->returned_duration / runtime_processor_speed_MHz;
if (sandbox->module->next_module == NULL) {
uint32_t total_time = (sandbox->completion_timestamp - sandbox->request_arrival_timestamp) / runtime_processor_speed_MHz;
bool miss_deadline = sandbox->completion_timestamp > sandbox->absolute_deadline ? true : false;
uint32_t delayed_us = (sandbox->completion_timestamp - sandbox->absolute_deadline)
/ runtime_processor_speed_MHz;
if (miss_deadline) {
mem_log("%lu miss deadline, delayed %u us, actual cost %u\n", sandbox->id, delayed_us, total_time);
} else {
mem_log("%lu meet deadline\n", sandbox->id);
}
}
/*
* Assumption: A sandbox is never able to free pages. If linear memory management
* becomes more intelligent, then peak linear memory size needs to be tracked
* seperately from current linear memory size.
*/
mem_log("%lu,%s():%d,%s,%u,%u,%u,%u,%u,%u,%u,%u,%u\n", sandbox->id,
sandbox->module->name, sandbox->module->port, sandbox_state_stringify(sandbox->state),
sandbox->module->relative_deadline_us, total_time_us, queued_us, initializing_us, runnable_us,
running_us, blocked_us, returned_us, sandbox->linear_memory_size);
}