/* Copyright (C) 2014 Stony Brook University
This file is part of Graphene Library OS.
Graphene Library OS is free software: you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public License
as published by the Free Software Foundation, either version 3 of the
License, or (at your option) any later version.
Graphene Library OS is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public License
along with this program. If not, see . */
/*
* shim_ipc.h
*
* Definitions of types and functions for IPC bookkeeping.
*/
#ifndef _SHIM_IPC_H_
#define _SHIM_IPC_H_
#include
#include
#include
#include
#include
#include
#include
DEFINE_LIST(shim_ipc_info);
struct shim_ipc_info {
IDTYPE vmid;
struct shim_ipc_port* port;
PAL_HANDLE pal_handle;
struct shim_qstr uri;
LIST_TYPE(shim_ipc_info) hlist;
REFTYPE ref_count;
};
enum { PID_NS, SYSV_NS, TOTAL_NS };
struct shim_process {
IDTYPE vmid;
struct shim_lock lock;
int exit_code;
struct shim_ipc_info* self;
struct shim_ipc_info* parent;
struct shim_ipc_info* ns[TOTAL_NS];
};
extern struct shim_process cur_process;
#define IPC_MSG_MINIMAL_SIZE 48
struct shim_ipc_msg {
unsigned char code;
size_t size;
IDTYPE src, dst;
unsigned long seq;
#ifdef PROFILE
unsigned long time;
#endif
char msg[];
} __attribute__((packed));
struct shim_ipc_port;
struct shim_thread;
DEFINE_LIST(shim_ipc_msg_duplex);
struct shim_ipc_msg_duplex {
struct shim_thread* thread;
LIST_TYPE(shim_ipc_msg_duplex) list;
int retval;
void* private;
struct shim_ipc_msg msg;
};
typedef void (*port_fini)(struct shim_ipc_port*, IDTYPE vmid, unsigned int exitcode);
#define MAX_IPC_PORT_FINI_CB 3
DEFINE_LIST(shim_ipc_port);
DEFINE_LISTP(shim_ipc_msg_duplex);
struct shim_ipc_port {
PAL_HANDLE pal_handle;
REFTYPE ref_count;
LIST_TYPE(shim_ipc_port) list;
LISTP_TYPE(shim_ipc_msg_duplex) msgs;
struct shim_lock msgs_lock;
port_fini fini[MAX_IPC_PORT_FINI_CB];
IDTYPE type;
IDTYPE vmid;
};
#define IPC_CALLBACK_ARGS struct shim_ipc_msg* msg, struct shim_ipc_port* port
/* if callback return RESPONSE_CALLBACK, send a response even if the callback
succeed. */
#define RESPONSE_CALLBACK 1
typedef int (*ipc_callback)(struct shim_ipc_msg* msg, struct shim_ipc_port* port);
/* Basic message codes */
enum {
IPC_RESP = 0,
IPC_CHECKPOINT,
IPC_BASE_BOUND,
};
/* IPC_RESP: response for incoming messages */
struct shim_ipc_resp {
int retval;
} __attribute__((packed));
/* PID_CHECKPOINT: broadcast checkpointing */
struct shim_ipc_checkpoint {
IDTYPE cpsession;
char cpdir[1];
} __attribute__((packed));
int ipc_checkpoint_send(const char* cpdir, IDTYPE cpsession);
int ipc_checkpoint_callback(struct shim_ipc_msg* msg, struct shim_ipc_port* port);
/* Message code from child to parent */
#define IPC_CLD_BASE IPC_BASE_BOUND
enum {
IPC_CLD_EXIT = IPC_CLD_BASE,
#ifdef PROFILE
IPC_CLD_PROFILE,
#endif
IPC_CLD_BOUND,
};
/* CLD_EXIT: thread exit */
struct shim_ipc_cld_exit {
IDTYPE ppid, tid;
unsigned int exitcode;
unsigned int term_signal;
#ifdef PROFILE
unsigned long time;
#endif
} __attribute__((packed));
int ipc_cld_exit_send(IDTYPE ppid, IDTYPE tid, unsigned int exitcode, unsigned int term_signal);
int ipc_cld_exit_callback(struct shim_ipc_msg* msg, struct shim_ipc_port* port);
#ifdef PROFILE
#include
struct shim_ipc_cld_profile {
unsigned long time;
int nprofile;
struct profile_val profile[];
} __attribute__((packed));
int ipc_cld_profile_send(void);
int ipc_cld_profile_callback(struct shim_ipc_msg* msg, struct shim_ipc_port* port);
#endif
/* Message code to namespace manager */
#define IPC_PID_BASE IPC_CLD_BOUND
#define NS pid
#define NS_CAP PID
#include "shim_ipc_ns.h"
enum {
IPC_PID_KILL = IPC_PID_TEMPLATE_BOUND,
IPC_PID_GETSTATUS,
IPC_PID_RETSTATUS,
IPC_PID_GETMETA,
IPC_PID_RETMETA,
IPC_PID_NOP,
IPC_PID_SENDRPC,
IPC_PID_BOUND,
};
enum kill_type { KILL_THREAD, KILL_PROCESS, KILL_PGROUP, KILL_ALL };
/* PID_KILL: send signal to certain pid */
struct shim_ipc_pid_kill {
IDTYPE sender;
enum kill_type type;
IDTYPE id;
int signum;
} __attribute__((packed));
int ipc_pid_kill_send(IDTYPE sender, IDTYPE target, enum kill_type type, int signum);
int ipc_pid_kill_callback(struct shim_ipc_msg* msg, struct shim_ipc_port* port);
struct pid_status {
IDTYPE pid, tgid, pgid;
} __attribute__((packed));
/* PID_GETSTATUS: check if certain pid(s) exists */
struct shim_ipc_pid_getstatus {
int npids;
IDTYPE pids[];
} __attribute__((packed));
int ipc_pid_getstatus_send(struct shim_ipc_port* port, IDTYPE dest, int npids, IDTYPE* pids,
struct pid_status** status);
int ipc_pid_getstatus_callback(IPC_CALLBACK_ARGS);
/* PID_RETSTATUS: return status of pid(s) */
struct shim_ipc_pid_retstatus {
int nstatus;
struct pid_status status[];
} __attribute__((packed));
int ipc_pid_retstatus_send(struct shim_ipc_port* port, IDTYPE dest, int nstatus,
struct pid_status* status, unsigned long seq);
int ipc_pid_retstatus_callback(IPC_CALLBACK_ARGS);
/* PID_GETMETA: get metadata of certain pid */
enum pid_meta_code {
PID_META_CRED,
PID_META_EXEC,
PID_META_CWD,
PID_META_ROOT,
};
struct shim_ipc_pid_getmeta {
IDTYPE pid;
enum pid_meta_code code;
} __attribute__((packed));
int ipc_pid_getmeta_send(IDTYPE pid, enum pid_meta_code code, void** data);
int ipc_pid_getmeta_callback(IPC_CALLBACK_ARGS);
/* PID_RETMETA: return metadata of certain pid */
struct shim_ipc_pid_retmeta {
IDTYPE pid;
enum pid_meta_code code;
int datasize;
char data[];
} __attribute__((packed));
int ipc_pid_retmeta_send(struct shim_ipc_port* port, IDTYPE dest, IDTYPE pid,
enum pid_meta_code code, const void* data, int datasize,
unsigned long seq);
int ipc_pid_retmeta_callback(IPC_CALLBACK_ARGS);
/* PID_NOP: send junk message (for benchmarking) */
struct shim_ipc_pid_nop {
int count;
char payload[];
} __attribute__((packed));
int ipc_pid_nop_send(struct shim_ipc_port* port, IDTYPE dest, int count, const void* buf, int len);
int ipc_pid_nop_callback(IPC_CALLBACK_ARGS);
/* PID_SENDRPC: send arbitary message (for benchmarking) */
struct shim_ipc_pid_sendrpc {
IDTYPE sender;
int len;
char payload[];
} __attribute__((packed));
int ipc_pid_sendrpc_send(IDTYPE pid, IDTYPE sender, const void* buf, int len);
int ipc_pid_sendrpc_callback(IPC_CALLBACK_ARGS);
#define IPC_SYSV_BASE IPC_PID_BOUND
struct sysv_key {
unsigned long key;
enum sysv_type type;
};
#define NS sysv
#define NS_CAP SYSV
#define NS_KEY struct sysv_key
#include "shim_ipc_ns.h"
enum {
IPC_SYSV_DELRES = IPC_SYSV_TEMPLATE_BOUND,
IPC_SYSV_MOVRES,
IPC_SYSV_MSGSND,
IPC_SYSV_MSGRCV,
IPC_SYSV_MSGMOV,
IPC_SYSV_SEMOP,
IPC_SYSV_SEMCTL,
IPC_SYSV_SEMRET,
IPC_SYSV_SEMMOV,
#ifdef USE_SHARED_SEMAPHORE
IPC_SYSV_SEMQUERY,
IPC_SYSV_SEMREPLY,
#endif
IPC_SYSV_BOUND,
};
/* SYSV_DELRES */
struct shim_ipc_sysv_delres {
IDTYPE resid;
enum sysv_type type;
} __attribute__((packed));
int ipc_sysv_delres_send(struct shim_ipc_port* port, IDTYPE dest, IDTYPE resid,
enum sysv_type type);
int ipc_sysv_delres_callback(IPC_CALLBACK_ARGS);
/* SYSV_MOVRES */
struct shim_ipc_sysv_movres {
IDTYPE resid;
enum sysv_type type;
IDTYPE owner;
LEASETYPE lease;
char uri[1];
} __attribute__((packed));
int ipc_sysv_movres_send(struct sysv_client* client, IDTYPE owner, const char* uri, LEASETYPE lease,
IDTYPE resid, enum sysv_type type);
int ipc_sysv_movres_callback(IPC_CALLBACK_ARGS);
/* SYSV_MSGSND */
struct shim_ipc_sysv_msgsnd {
IDTYPE msgid;
long msgtype;
char msg[];
} __attribute__((packed));
int ipc_sysv_msgsnd_send(struct shim_ipc_port* port, IDTYPE dest, IDTYPE msgid, long msgtype,
const void* buf, size_t size, unsigned long seq);
int ipc_sysv_msgsnd_callback(IPC_CALLBACK_ARGS);
/* SYSV_MSGRCV */
struct shim_ipc_sysv_msgrcv {
IDTYPE msgid;
long msgtype;
size_t size;
int flags;
} __attribute__((packed));
int ipc_sysv_msgrcv_send(IDTYPE msgid, long msgtype, int flags, void* buf, size_t size);
int ipc_sysv_msgrcv_callback(IPC_CALLBACK_ARGS);
/* SYSV_MSGMOV */
struct shim_ipc_sysv_msgmov {
IDTYPE msgid;
LEASETYPE lease;
unsigned short nscores;
struct sysv_score scores[];
} __attribute__((packed));
int ipc_sysv_msgmov_send(struct shim_ipc_port* port, IDTYPE dest, IDTYPE msgid, LEASETYPE lease,
struct sysv_score* scores, int nscores);
int ipc_sysv_msgmov_callback(IPC_CALLBACK_ARGS);
/* SYSV_SEMOP */
struct shim_ipc_sysv_semop {
IDTYPE semid;
unsigned long timeout;
int nsops;
struct sembuf sops[];
} __attribute__((packed));
#define IPC_SEM_NOTIMEOUT ((unsigned long)-1)
int ipc_sysv_semop_send(IDTYPE semid, struct sembuf* sops, int nsops, unsigned long timeout,
unsigned long* seq);
int ipc_sysv_semop_callback(IPC_CALLBACK_ARGS);
/* SYSV_SEMCTL */
struct shim_ipc_sysv_semctl {
IDTYPE semid;
int semnum;
int cmd;
size_t valsize;
unsigned char vals[];
} __attribute__((packed));
int ipc_sysv_semctl_send(IDTYPE semid, int semnum, int cmd, void* vals, size_t valsize);
int ipc_sysv_semctl_callback(IPC_CALLBACK_ARGS);
/* SYSV_SEMRET */
struct shim_ipc_sysv_semret {
size_t valsize;
unsigned char vals[];
} __attribute__((packed));
int ipc_sysv_semret_send(struct shim_ipc_port* port, IDTYPE dest, void* vals, size_t valsize,
unsigned long seq);
int ipc_sysv_semret_callback(IPC_CALLBACK_ARGS);
/* SYSV_SEMMOV */
struct shim_ipc_sysv_semmov {
IDTYPE semid;
LEASETYPE lease;
unsigned short nsems, nsrcs, nscores;
struct sem_backup sems[];
} __attribute__((packed));
int ipc_sysv_semmov_send(struct shim_ipc_port* port, IDTYPE dest, IDTYPE semid, LEASETYPE lease,
struct sem_backup* sems, int nsems, struct sem_client_backup* srcs,
int nsrcs, struct sysv_score* scores, int nscores);
int ipc_sysv_semmov_callback(IPC_CALLBACK_ARGS);
#ifdef USE_SHARED_SEMAPHORE
/* SYSV_SEMQUERY */
struct shim_ipc_sysv_semquery {
IDTYPE semid;
} __attribute__((packed));
int ipc_sysv_semquery_send(IDTYPE semid, int* nsems, PAL_NUM** host_sem_ids);
int ipc_sysv_semquery_callback(IPC_CALLBACK_ARGS);
/* SYSV_SEMREPLY */
struct shim_ipc_sysv_semreply {
IDTYPE semid;
int nsems;
PAL_NUM host_sem_ids[];
} __attribute__((packed));
int ipc_sysv_semreply_send(struct shim_ipc_port* port, IDTYPE dest, IDTYPE semid, int nsems,
PAL_NUM* host_sem_ids, unsigned long seq);
int ipc_sysv_semreply_callback(IPC_CALLBACK_ARGS);
#endif
#define IPC_CODE_NUM IPC_SYSV_BOUND
/* functions and routines */
int init_ipc(void);
int init_ipc_helper(void);
struct shim_process* create_process(bool dup_cur_process);
void free_process(struct shim_process* process);
struct shim_ipc_info* create_ipc_info_cur_process(bool is_self_ipc_info);
int get_ipc_info_cur_process(struct shim_ipc_info** pinfo);
enum {
LISTEN, /* listening */
SERVER, /* connect as a server */
KEEPALIVE, /* keep the connetion alive */
DIRCLD, /* direct child */
DIRPRT, /* direct parent */
NS_PORT_CONSTS(PID) NS_PORT_CONSTS(SYSV)
};
enum {
IPC_PORT_LISTEN = 1 << LISTEN,
IPC_PORT_SERVER = 1 << SERVER,
IPC_PORT_KEEPALIVE = 1 << KEEPALIVE,
IPC_PORT_DIRCLD = 1 << DIRCLD,
IPC_PORT_DIRPRT = 1 << DIRPRT,
NS_PORT_TYPES(PID) NS_PORT_TYPES(SYSV)
};
/* general-purpose routines */
void add_ipc_port_by_id(IDTYPE vmid, PAL_HANDLE hdl, IDTYPE type, port_fini fini,
struct shim_ipc_port** portptr);
void add_ipc_port(struct shim_ipc_port* port, IDTYPE vmid, IDTYPE type, port_fini fini);
void del_ipc_port_fini(struct shim_ipc_port* port, unsigned int exitcode);
struct shim_ipc_port* lookup_ipc_port(IDTYPE vmid, IDTYPE type);
void get_ipc_port(struct shim_ipc_port* port);
void put_ipc_port(struct shim_ipc_port* port);
void del_all_ipc_ports(void);
struct shim_ipc_info* create_ipc_info(IDTYPE vmid, const char* uri, size_t len);
void get_ipc_info(struct shim_ipc_info* port);
void put_ipc_info(struct shim_ipc_info* port);
struct shim_ipc_info* create_ipc_info_in_list(IDTYPE vmid, const char* uri, size_t len);
void put_ipc_info_in_list(struct shim_ipc_info* info);
struct shim_ipc_info* lookup_ipc_info(IDTYPE vmid);
static_always_inline size_t get_ipc_msg_size(size_t payload) {
size_t size = sizeof(struct shim_ipc_msg) + payload;
return (size > IPC_MSG_MINIMAL_SIZE) ? size : IPC_MSG_MINIMAL_SIZE;
}
static_always_inline size_t get_ipc_msg_duplex_size(size_t payload) {
assert(sizeof(struct shim_ipc_msg_duplex) >= sizeof(struct shim_ipc_msg));
return get_ipc_msg_size(payload) +
(sizeof(struct shim_ipc_msg_duplex) - sizeof(struct shim_ipc_msg));
}
void init_ipc_msg(struct shim_ipc_msg* msg, int code, size_t size, IDTYPE dest);
void init_ipc_msg_duplex(struct shim_ipc_msg_duplex* msg, int code, size_t size, IDTYPE dest);
struct shim_ipc_msg_duplex* pop_ipc_msg_duplex(struct shim_ipc_port* port, unsigned long seq);
int broadcast_ipc(struct shim_ipc_msg* msg, int target_type, struct shim_ipc_port* exclude_port);
int send_ipc_message(struct shim_ipc_msg* msg, struct shim_ipc_port* port);
int send_ipc_message_duplex(struct shim_ipc_msg_duplex* msg, struct shim_ipc_port* port,
unsigned long* seq, void* private_data);
int send_response_ipc_message(struct shim_ipc_port* port, IDTYPE dest, int ret, unsigned long seq);
void ipc_port_with_child_fini(struct shim_ipc_port* port, IDTYPE vmid, unsigned int exitcode);
struct shim_thread* terminate_ipc_helper(void);
int prepare_ns_leaders(void);
#endif /* _SHIM_IPC_H_ */