/* shared.h: shared info for cygwin Copyright 1998, 1999, 2000 Cygnus Solutions. This file is part of Cygwin. This software is a copyrighted work licensed under the terms of the Cygwin license. Please consult the file "CYGWIN_LICENSE" for details. */ /******** Functions declarations for use in methods below ********/ /* Printf type functions */ extern "C" void __api_fatal (const char *, ...) __attribute__ ((noreturn)); extern "C" int __small_sprintf (char *dst, const char *fmt, ...); extern "C" int __small_vsprintf (char *dst, const char *fmt, va_list ap); /******** Deletion Queue Class ********/ /* First pass at a file deletion queue structure. We can't keep this list in the per-process info, since one process may open a file, and outlive a process which wanted to unlink the file - and the data would go away. Perhaps the FILE_FLAG_DELETE_ON_CLOSE would be ok, but brief experimentation didn't get too far. */ #define MAX_DELQUEUES_PENDING 100 class delqueue_list { char name[MAX_DELQUEUES_PENDING][MAX_PATH]; char inuse[MAX_DELQUEUES_PENDING]; int empty; public: void init (); void queue_file (const char *dosname); void process_queue (); }; /******** Process Table ********/ /* Signal constants (have to define them here, unfortunately) */ enum { __SIGFLUSH = -2, __SIGSTRACE = -1, __SIGCHILDSTOPPED = 0, __SIGOFFSET = 3 }; class pinfo { public: /* If hProcess is set, it's because it came from a CreateProcess call. This means it's process relative to the thing which created the process. That's ok because we only use this handle from the parent. */ HANDLE hProcess; HANDLE parent_alive; /* dwProcessId contains the processid used for sending signals. It * will be reset in a child process when it is capable of receiving * signals. */ DWORD dwProcessId; /* User information. The information is derived from the GetUserName system call, with the name looked up in /etc/passwd and assigned a default value if not found. This data resides in the shared data area (allowing tasks to store whatever they want here) so it's for informational purposes only. */ uid_t uid; /* User ID */ gid_t gid; /* Group ID */ pid_t pgid; /* Process group ID */ pid_t sid; /* Session ID */ int ctty; /* Control tty */ mode_t umask; char username[MAX_USER_NAME]; /* user's name */ /* Extendend user information. The information is derived from the internal_getlogin call when on a NT system. */ PSID psid; /* user's SID */ char sidbuf[MAX_SID_LEN]; /* buffer for user's SID */ char logsrv[MAX_HOST_NAME]; /* Logon server, may be FQDN */ char domain[MAX_COMPUTERNAME_LENGTH+1]; /* Logon domain of the user */ /* token is needed if sexec should be called. It can be set by a call to `set_impersonation_token()'. */ HANDLE token; BOOL impersonated; uid_t orig_uid; /* Remains intact also after impersonation */ uid_t orig_gid; /* Ditto */ uid_t real_uid; /* Remains intact on seteuid, replaced by setuid */ gid_t real_gid; /* Ditto */ /* Filled when chroot() is called by the process or one of it's parents. Saved without trailing backslash. */ char root[MAX_PATH+1]; size_t rootlen; /* Non-zero if process was stopped by a signal. */ char stopsig; struct sigaction& getsig (int); void copysigs (pinfo *); sigset_t& getsigmask (); void setsigmask (sigset_t); LONG* getsigtodo (int); HANDLE getthread2signal (); void setthread2signal (void *); /* Resources used by process. */ long start_time; struct rusage rusage_self; struct rusage rusage_children; private: struct sigaction sigs[NSIG]; sigset_t sig_mask; /* one set for everything to ignore. */ LONG _sigtodo[NSIG + __SIGOFFSET]; #ifdef _MT_SAFE ThreadItem* thread2signal; // NULL means means thread any other means a pthread #endif public: /* Pointer to mmap'ed areas for this process. Set up by fork. */ void *mmap_ptr; /* Used to spawn a child for fork(), among other things. */ char progname[MAX_PATH]; #define PINFO_ZERO ((((pinfo *) NULL)->progname + 1) - ((char *) NULL)) /* Anything below this point is not zeroed automatically by allocate_pid */ /* The pid stays the same, while the hProcess moves due to execs. */ pid_t pid; /* Parent process id. */ pid_t ppid; /* Various flags indicating the state of the process. See PID_ constants below. */ DWORD process_state; void record_death (int lock = 1); }; #define ISSTATE(p, f) (!!((p)->process_state & f)) #define NOTSTATE(p, f) (!((p)->process_state & f)) #define PSIZE 128 class pinfo_list { public: int next_pid; pinfo vec[PSIZE]; char lock_info[MAX_PATH + 1]; pinfo * operator[] (pid_t x); int size (void) { return PSIZE; } pinfo *allocate_pid (void); void init (void); }; void __stdcall pinfo_init (PBYTE); pinfo *__stdcall procinfo (int n); enum { PROC_MAGIC = 0xaf08f000, PROC_FORK = PROC_MAGIC + 1, PROC_EXEC = PROC_MAGIC + 2, PROC_SPAWN = PROC_MAGIC + 3, PROC_FORK1 = PROC_MAGIC + 4 // Newer versions provide stack // location information }; #define PROC_MAGIC_MASK 0xff00f000 #define PROC_MAGIC_GENERIC 0xaf00f000 #define PROC_MAGIC_VER_MASK 0x0ff0000 #define EXEC_MAGIC_SIZE sizeof(child_info) class child_info { public: DWORD zero[1]; // must be zeroed DWORD cb; // size of this record DWORD type; // type of record int cygpid; // cygwin pid of child process HANDLE subproc_ready; // used for synchronization with parent HANDLE shared_h; HANDLE console_h; HANDLE parent_alive; // handle of thread used to track children }; class child_info_fork: public child_info { public: HANDLE forker_finished;// for synchronization with child DWORD stacksize; // size of parent stack void *heaptop; void *heapbase; void *heapptr; jmp_buf jmp; // where child will jump to void *stacktop; // location of top of parent stack void *stackbottom; // location of bottom of parent stack }; void __stdcall init_child_info (DWORD, child_info *, int, HANDLE); extern child_info_fork *child_proc_info; /* Process info for this process */ extern pinfo *myself; /* non-NULL if this process is a child of a cygwin process */ extern HANDLE parent_alive; /******** Registry Access ********/ class reg_key { private: HKEY key; LONG key_is_invalid; public: reg_key (HKEY toplev, REGSAM access, ...); reg_key (REGSAM access, ...); reg_key (REGSAM access = KEY_ALL_ACCESS); void *operator new (size_t, void *p) {return p;} void build_reg (HKEY key, REGSAM access, va_list av); int error () {return key == (HKEY) INVALID_HANDLE_VALUE;} int kill (const char *child); HKEY get_key (); int get_int (const char *,int def); int get_string (const char *, char *buf, size_t len, const char *def); int set_string (const char *,const char *); int set_int (const char *, int val); ~reg_key (); }; /* Evaluates path to the directory of the local user registry hive */ char *__stdcall get_registry_hive_path (const PSID psid, char *path); void __stdcall load_registry_hive (PSID psid); /******** Mount Table ********/ /* Mount table entry */ class mount_item { public: /* FIXME: Nasty static allocation. Need to have a heap in the shared area [with the user being able to configure at runtime the max size]. */ /* Win32-style mounted partition source ("C:\foo\bar"). native_path[0] == 0 for unused entries. */ char native_path[MAX_PATH]; int native_pathlen; /* POSIX-style mount point ("/foo/bar") */ char posix_path[MAX_PATH]; int posix_pathlen; unsigned flags; void init (const char *dev, const char *path, unsigned flags); struct mntent *getmntent (); }; /* Warning: Decreasing this value will cause cygwin.dll to ignore existing higher numbered registry entries. Don't change this number willy-nilly. What we need is to have a more dynamic allocation scheme, but the current scheme should be satisfactory for a long while yet. */ #define MAX_MOUNTS 30 class mount_info { int posix_sorted[MAX_MOUNTS]; int native_sorted[MAX_MOUNTS]; public: int nmounts; mount_item mount[MAX_MOUNTS]; /* Strings used by getmntent(). */ char mnt_type[20]; char mnt_opts[20]; char mnt_fsname[MAX_PATH]; char mnt_dir[MAX_PATH]; /* cygdrive_prefix is used as the root of the path automatically prepended to a path when the path has no associated mount. cygdrive_flags are the default flags for the cygdrives. */ char cygdrive[MAX_PATH]; size_t cygdrive_len; unsigned cygdrive_flags; /* Increment when setting up a reg_key if mounts area had to be created so we know when we need to import old mount tables. */ int had_to_create_mount_areas; void init (); int add_item (const char *dev, const char *path, unsigned flags, int reg_p); int del_item (const char *path, unsigned flags, int reg_p); void from_registry (); int add_reg_mount (const char * native_path, const char * posix_path, unsigned mountflags); int del_reg_mount (const char * posix_path, unsigned mountflags); unsigned set_flags_from_win32_path (const char *path); int conv_to_win32_path (const char *src_path, char *win32_path, char *full_win32_path, DWORD &devn, int &unit, unsigned *flags = NULL); int conv_to_posix_path (const char *src_path, char *posix_path, int keep_rel_p); struct mntent *getmntent (int x); int write_cygdrive_info_to_registry (const char *cygdrive_prefix, unsigned flags); void import_v1_mounts (); private: void sort (); void read_mounts (reg_key& r); void read_v1_mounts (reg_key r, unsigned which); void mount_slash (); void to_registry (); int cygdrive_win32_path (const char *src, char *dst, int trailing_slash_p); void cygdrive_posix_path (const char *src, char *dst, int trailing_slash_p); void slash_drive_to_win32_path (const char *path, char *buf, int trailing_slash_p); void read_cygdrive_info_from_registry (); }; /******** TTY Support ********/ /* tty tables */ #define INP_BUFFER_SIZE 256 #define OUT_BUFFER_SIZE 256 #define NTTYS 128 #define TTY_CONSOLE 0x40000000 #define tty_attached(p) ((p)->ctty >= 0 && (p)->ctty != TTY_CONSOLE) /* Input/Output/ioctl events */ #define OUTPUT_DONE_EVENT "cygtty%d.output.done" #define IOCTL_REQUEST_EVENT "cygtty%d.ioctl.request" #define IOCTL_DONE_EVENT "cygtty%d.ioctl.done" #define RESTART_OUTPUT_EVENT "cygtty%d.output.restart" #define OUTPUT_MUTEX "cygtty%d.output.mutex" #define TTY_SLAVE_ALIVE "cygtty%x.slave_alive" #define TTY_MASTER_ALIVE "cygtty%x.master_alive" #include enum { TTY_INITIALIZED = 1, /* Set if tty is initialized */ TTY_RSTCONS = 2 /* Set if console needs to be set to "non-cooked" */ }; #define TTYISSETF(x) __ISSETF (tc, x, TTY) #define TTYSETF(x) __SETF (tc, x, TTY) #define TTYCLEARF(x) __CLEARF (tc, x, TTY) #define TTYCONDSETF(n, x) __CONDSETF(n, tc, x, TTY) #ifndef MIN_CTRL_C_SLOP #define MIN_CTRL_C_SLOP 50 #endif class tty_min { pid_t sid; /* Session ID of tty */ public: DWORD status; pid_t pgid; int OutputStopped; int ntty; DWORD last_ctrl_c; // tick count of last ctrl-c tty_min (int t = -1, pid_t s = -1) : sid (s), ntty (t) {} void setntty (int n) {ntty = n;} pid_t getpgid () {return pgid;} void setpgid (int pid) {pgid = pid;} int getsid () {return sid;} void setsid (pid_t tsid) {sid = tsid;} struct termios ti; struct winsize winsize; /* ioctl requests buffer */ int cmd; union { struct termios termios; struct winsize winsize; int value; pid_t pid; } arg; /* XXX_retval variables holds master's completion codes. Error are stored as * -ERRNO */ int ioctl_retval; int write_retval; }; class fhandler_pty_master; class tty: public tty_min { HANDLE get_event (const char *fmt, BOOL inherit); public: HWND hwnd; /* Console window handle tty belongs to */ DWORD master_pid; /* Win32 PID of tty master process */ HANDLE from_master, to_slave; HANDLE from_slave, to_master; int read_retval; BOOL was_opened; /* True if opened at least once. */ void init (); HANDLE create_inuse (const char *); BOOL common_init (fhandler_pty_master *); BOOL alive (const char *fmt); BOOL slave_alive (); BOOL master_alive (); HWND gethwnd () {return hwnd;} void sethwnd (HWND wnd) {hwnd = wnd;} int make_pipes (fhandler_pty_master *ptym); HANDLE open_output_mutex (BOOL inherit = FALSE) { char buf[80]; __small_sprintf (buf, OUTPUT_MUTEX, ntty); return OpenMutex (MUTEX_ALL_ACCESS, inherit, buf); } BOOL exists () { HANDLE h = open_output_mutex (); if (h) { CloseHandle (h); return 1; } return slave_alive (); } }; class tty_list { tty ttys[NTTYS]; public: tty * operator [](int n) {return ttys + n;} int allocate_tty (int n); /* n non zero if allocate a tty, pty otherwise */ int connect_tty (int); void terminate (); void init (); tty_min *get_tty (int n); }; void __stdcall tty_init (); void __stdcall tty_terminate (); int __stdcall attach_tty (int); void __stdcall create_tty_master (int); extern "C" int ttyslot (void); /******** Shared Info ********/ /* Data accessible to all tasks */ class shared_info { DWORD inited; public: pinfo_list p; /* FIXME: Doesn't work if more than one user on system. */ mount_info mount; int heap_chunk_in_mb; unsigned heap_chunk_size (void); tty_list tty; delqueue_list delqueue; void initialize (void); }; /* Various types of security attributes for use in Create* functions. */ extern SECURITY_ATTRIBUTES sec_none, sec_none_nih, sec_all, sec_all_nih; extern SECURITY_ATTRIBUTES *__stdcall sec_user (PVOID sa_buf, PSID sid2 = NULL, BOOL inherit = TRUE); extern SECURITY_ATTRIBUTES *__stdcall sec_user_nih (PVOID sa_buf, PSID sid2 = NULL); extern shared_info *cygwin_shared; extern HANDLE cygwin_shared_h; extern HANDLE console_shared_h; extern int __stdcall set_console_state_for_spawn (); void __stdcall shared_init (void); void __stdcall shared_terminate (void); char *__stdcall shared_name (const char *, int); void *__stdcall open_shared (const char *name, HANDLE &shared_h, DWORD size, void *addr); extern "C" { /* This is for programs that want to access the shared data. */ class shared_info *cygwin_getshared (void); struct cygwin_version_info { unsigned short api_major; unsigned short api_minor; unsigned short dll_major; unsigned short dll_minor; unsigned short shared_data; unsigned short mount_registry; const char *dll_build_date; char shared_id[sizeof (CYGWIN_VERSION_DLL_IDENTIFIER) + 64]; }; } extern cygwin_version_info cygwin_version; extern const char *cygwin_version_strings;