blob: ced0bb3d34a91ea1764b70669ba5376648806d03 [file] [log] [blame] [raw]
/* SPDX-License-Identifier: LGPL-2.1+ */
#pragma once
#include <byteswap.h>
#include <stdbool.h>
#include <sys/socket.h>
#include "sd-bus.h"
#include "bus-creds.h"
#include "bus-protocol.h"
#include "macro.h"
#include "time-util.h"
struct bus_container {
char enclosing;
bool need_offsets:1;
/* Indexes into the signature string */
unsigned index, saved_index;
char *signature;
size_t before, begin, end;
/* dbus1: pointer to the array size value, if this is a value */
uint32_t *array_size;
/* gvariant: list of offsets to end of children if this is struct/dict entry/array */
size_t *offsets, n_offsets, offsets_allocated, offset_index;
size_t item_size;
char *peeked_signature;
};
struct bus_body_part {
struct bus_body_part *next;
void *data;
void *mmap_begin;
size_t size;
size_t mapped;
size_t allocated;
uint64_t memfd_offset;
int memfd;
bool free_this:1;
bool munmap_this:1;
bool sealed:1;
bool is_zero:1;
};
struct sd_bus_message {
/* Caveat: a message can be referenced in two different ways: the main (user-facing) way will also
* pin the bus connection object the message is associated with. The secondary way ("queued") is used
* when a message is in the read or write queues of the bus connection object, which will not pin the
* bus connection object. This is necessary so that we don't have to have a pair of cyclic references
* between a message that is queued and its connection: as soon as a message is only referenced by
* the connection (by means of being queued) and the connection itself has no other references it
* will be freed. */
unsigned n_ref; /* Counter of references that pin the connection */
unsigned n_queued; /* Counter of references that do not pin the connection */
sd_bus *bus;
uint64_t reply_cookie;
const char *path;
const char *interface;
const char *member;
const char *destination;
const char *sender;
sd_bus_error error;
sd_bus_creds creds;
usec_t monotonic;
usec_t realtime;
uint64_t seqnum;
int64_t priority;
uint64_t verify_destination_id;
bool sealed:1;
bool dont_send:1;
bool allow_fds:1;
bool free_header:1;
bool free_fds:1;
bool poisoned:1;
/* The first and last bytes of the message */
struct bus_header *header;
void *footer;
/* How many bytes are accessible in the above pointers */
size_t header_accessible;
size_t footer_accessible;
size_t fields_size;
size_t body_size;
size_t user_body_size;
struct bus_body_part body;
struct bus_body_part *body_end;
unsigned n_body_parts;
size_t rindex;
struct bus_body_part *cached_rindex_part;
size_t cached_rindex_part_begin;
uint32_t n_fds;
int *fds;
struct bus_container root_container, *containers;
size_t n_containers;
size_t containers_allocated;
struct iovec *iovec;
struct iovec iovec_fixed[2];
unsigned n_iovec;
char *peeked_signature;
/* If set replies to this message must carry the signature
* specified here to successfully seal. This is initialized
* from the vtable data */
const char *enforced_reply_signature;
usec_t timeout;
size_t header_offsets[_BUS_MESSAGE_HEADER_MAX];
unsigned n_header_offsets;
uint64_t read_counter;
};
static inline bool BUS_MESSAGE_NEED_BSWAP(sd_bus_message *m) {
return m->header->endian != BUS_NATIVE_ENDIAN;
}
static inline uint16_t BUS_MESSAGE_BSWAP16(sd_bus_message *m, uint16_t u) {
return BUS_MESSAGE_NEED_BSWAP(m) ? bswap_16(u) : u;
}
static inline uint32_t BUS_MESSAGE_BSWAP32(sd_bus_message *m, uint32_t u) {
return BUS_MESSAGE_NEED_BSWAP(m) ? bswap_32(u) : u;
}
static inline uint64_t BUS_MESSAGE_BSWAP64(sd_bus_message *m, uint64_t u) {
return BUS_MESSAGE_NEED_BSWAP(m) ? bswap_64(u) : u;
}
static inline uint64_t BUS_MESSAGE_COOKIE(sd_bus_message *m) {
if (m->header->version == 2)
return BUS_MESSAGE_BSWAP64(m, m->header->dbus2.cookie);
return BUS_MESSAGE_BSWAP32(m, m->header->dbus1.serial);
}
static inline size_t BUS_MESSAGE_SIZE(sd_bus_message *m) {
return
sizeof(struct bus_header) +
ALIGN8(m->fields_size) +
m->body_size;
}
static inline size_t BUS_MESSAGE_BODY_BEGIN(sd_bus_message *m) {
return
sizeof(struct bus_header) +
ALIGN8(m->fields_size);
}
static inline void* BUS_MESSAGE_FIELDS(sd_bus_message *m) {
return (uint8_t*) m->header + sizeof(struct bus_header);
}
static inline bool BUS_MESSAGE_IS_GVARIANT(sd_bus_message *m) {
return m->header->version == 2;
}
int bus_message_get_blob(sd_bus_message *m, void **buffer, size_t *sz);
int bus_message_read_strv_extend(sd_bus_message *m, char ***l);
int bus_message_from_header(
sd_bus *bus,
void *header,
size_t header_accessible,
void *footer,
size_t footer_accessible,
size_t message_size,
int *fds,
size_t n_fds,
const char *label,
size_t extra,
sd_bus_message **ret);
int bus_message_from_malloc(
sd_bus *bus,
void *buffer,
size_t length,
int *fds,
size_t n_fds,
const char *label,
sd_bus_message **ret);
int bus_message_get_arg(sd_bus_message *m, unsigned i, const char **str);
int bus_message_get_arg_strv(sd_bus_message *m, unsigned i, char ***strv);
int bus_message_parse_fields(sd_bus_message *m);
struct bus_body_part *message_append_part(sd_bus_message *m);
#define MESSAGE_FOREACH_PART(part, i, m) \
for ((i) = 0, (part) = &(m)->body; (i) < (m)->n_body_parts; (i)++, (part) = (part)->next)
int bus_body_part_map(struct bus_body_part *part);
void bus_body_part_unmap(struct bus_body_part *part);
int bus_message_to_errno(sd_bus_message *m);
int bus_message_new_synthetic_error(sd_bus *bus, uint64_t serial, const sd_bus_error *e, sd_bus_message **m);
int bus_message_remarshal(sd_bus *bus, sd_bus_message **m);
void bus_message_set_sender_driver(sd_bus *bus, sd_bus_message *m);
void bus_message_set_sender_local(sd_bus *bus, sd_bus_message *m);
sd_bus_message* bus_message_ref_queued(sd_bus_message *m, sd_bus *bus);
sd_bus_message* bus_message_unref_queued(sd_bus_message *m, sd_bus *bus);