ref: b548687a8ed1d0a159c9d3f3f921d93bbb56908e
dir: /os/port/portdat.h/
typedef struct Alarms Alarms; typedef struct Block Block; typedef struct Bkpt Bkpt; typedef struct BkptCond BkptCond; typedef struct Chan Chan; typedef struct Cmdbuf Cmdbuf; typedef struct Cmdtab Cmdtab; typedef struct Cname Cname; typedef struct Crypt Crypt; typedef struct Dev Dev; typedef struct DevConf DevConf; typedef struct Dirtab Dirtab; typedef struct Edf Edf; typedef struct Egrp Egrp; typedef struct Evalue Evalue; typedef struct Fgrp Fgrp; typedef struct List List; typedef struct Log Log; typedef struct Logflag Logflag; typedef struct Mntcache Mntcache; typedef struct Mntparam Mntparam; typedef struct Mount Mount; typedef struct Mntrah Mntrah; typedef struct Mntrpc Mntrpc; typedef struct Mntproc Mntproc; typedef struct Mntwalk Mntwalk; typedef struct Mnt Mnt; typedef struct Mhead Mhead; typedef struct Note Note; typedef struct Path Path; typedef struct Perf Perf; typedef struct Pgrp Pgrp; typedef struct Proc Proc; typedef struct PMach PMach; typedef struct QLock QLock; typedef struct Queue Queue; typedef struct Ref Ref; typedef struct Rendez Rendez; typedef struct Rept Rept; typedef struct Rootdata Rootdata; typedef struct Rgrp Rgrp; typedef struct RWlock RWlock; typedef struct Schedq Schedq; typedef struct Signerkey Signerkey; typedef struct Skeyset Skeyset; typedef struct Talarm Talarm; typedef struct Timer Timer; typedef struct Timers Timers; typedef struct PhysUart PhysUart; typedef struct Uart Uart; typedef struct Waitq Waitq; typedef struct Walkqid Walkqid; typedef struct Watchpt Watchpt; typedef struct Watchdog Watchdog; typedef int Devgen(Chan*, char*, Dirtab*, int, int, Dir*); #pragma incomplete DevConf #pragma incomplete Edf #pragma incomplete Mntcache #pragma incomplete Mntrpc #pragma incomplete Queue #pragma incomplete Timers #include "fcall.h" #include <pool.h> /* * sticking with inferno's definition of Ref * as it keeps the incref() and decref() simple * and also puts the proc on the fast path by the * scheduler's priorities (PriLock) */ struct Ref { Lock l; s32 ref; }; struct Rendez { Lock; Proc *p; }; struct Rept { Lock l; Rendez r; void *o; s32 t; s32 (*active)(void*); s32 (*ck)(void*, int); void (*f)(void*); /* called with VM acquire()'d */ }; enum { Nopin = -1 }; struct QLock { Lock use; /* to access Qlock structure */ Proc *head; /* next process waiting for object */ Proc *tail; /* last process waiting for object */ s32 locked; /* flag */ }; struct RWlock { Lock use; Proc *head; /* list of waiting processes */ Proc *tail; uintptr wpc; /* pc of writer */ Proc *wproc; /* writing proc */ int readers; /* number of readers */ int writer; /* number of writers */ }; struct Talarm { Lock; Proc* list; }; struct Alarms { QLock; Proc* head; }; struct Rootdata { s32 dotdot; void *ptr; s32 size; s32 *sizep; }; /* * Access types in namec & channel flags */ enum { Aaccess, /* as in stat, wstat */ Abind, /* for left-hand-side of bind */ Atodir, /* as in chdir */ Aopen, /* for i/o */ Amount, /* to be mounted or mounted upon */ Acreate, /* is to be created */ Aremove, /* will be removed by caller */ COPEN = 0x0001, /* for i/o */ CMSG = 0x0002, /* the message channel for a mount */ CCEXEC = 0x0008, /* close on exec */ CFREE = 0x0010, /* not in use */ CRCLOSE = 0x0020, /* remove on close */ CCACHE = 0x0080, /* client cache */ }; enum { BINTR = (1<<0), BFREE = (1<<1), Bipck = (1<<2), /* ip checksum */ Budpck = (1<<3), /* udp checksum */ Btcpck = (1<<4), /* tcp checksum */ Bpktck = (1<<5), /* packet checksum */ }; struct Block { Block* next; Block* list; uchar* rp; /* first unconsumed byte */ uchar* wp; /* first empty byte */ uchar* lim; /* 1 past the end of the buffer */ uchar* base; /* start of the buffer */ void (*free)(Block*); u16 flag; u16 checksum; /* IP checksum of complete packet (minus media header) */ }; #define BLEN(s) ((s)->wp - (s)->rp) #define BALLOC(s) ((s)->lim - (s)->base) struct Chan { Ref; Lock; Chan *next; /* allocation */ Chan *link; s64 offset; /* in fd */ s64 devoffset; /* in underlying device; see read */ u16 type; u32 dev; u16 mode; /* read/write */ u16 flag; Qid qid; s32 fid; /* for devmnt */ u32 iounit; /* chunk size for i/o; 0==default */ Mhead *umh; /* mount point that derived Chan; used in unionread */ Chan *umc; /* channel in union; held for union read */ QLock umqlock; /* serialize unionreads */ s32 uri; /* union read index */ s32 dri; /* devdirread index */ uchar *dirrock; /* directory entry rock for translations */ int nrock; int mrock; QLock rockqlock; int ismtpt; Mntcache *mcp; /* Mount cache pointer */ Mnt *mux; /* Mnt for clients using me for messages */ union { void *aux; u32 mid; /* for ns in devproc */ }; Chan *mchan; /* channel to mounted server */ Qid mqid; /* qid of root of mount point */ Path *path; }; struct Path { Ref; char *s; Chan **mtpt; /* mtpt history */ int len; /* strlen(s) */ int alen; /* allocated length of s */ int mlen; /* number of path elements */ int malen; /* allocated length of mtpt */ }; struct Dev { s32 dc; char *name; void (*reset)(void); void (*init)(void); void (*shutdown)(void); Chan* (*attach)(char*); Walkqid* (*walk)(Chan*, Chan*, char**, s32); s32 (*stat)(Chan*, uchar*, s32); Chan* (*open)(Chan*, u32); void (*create)(Chan*, char*, u32, u32); void (*close)(Chan*); s32 (*read)(Chan*, void*, s32, s64); Block* (*bread)(Chan*, s32, u32); s32 (*write)(Chan*, void*, s32, s64); s32 (*bwrite)(Chan*, Block*, u32); void (*remove)(Chan*); s32 (*wstat)(Chan*, uchar*, s32); void (*power)(s32); /* power mgt: power(1) → on, power (0) → off */ s32 (*config)(s32, char*, DevConf*); }; struct Dirtab { char name[KNAMELEN]; Qid qid; s64 length; s32 perm; }; struct Walkqid { Chan *clone; s32 nqid; Qid qid[1]; }; enum { NSMAX = 1000, NSLOG = 7, NSCACHE = (1<<NSLOG), }; struct Mntwalk /* state for /proc/#/ns */ { s32 cddone; u32 id; Mhead *mh; Mount *cm; }; /* * *order is used to build a temporary mountid sorted linked * list by pgrpcpy() to preserve the mountid allocation order * of the source pgrp. * Alternative would be to build an array of copied mounts and * qsort() it at the end before allocating mountid's. */ struct Mount { u32 mountid; Mount *next; Mount *order; Chan *to; /* channel replacing channel */ s32 mflag; char *spec; }; struct Mhead { Ref; RWlock lock; Chan *from; /* channel mounted upon */ Mount *mount; /* what's mounted upon it */ Mhead *hash; /* Hash chain */ }; struct Mntrah { Rendez; ulong vers; vlong off; vlong seq; uint i; Mntrpc *r[8]; }; struct Mntproc { Rendez; Mnt *m; Mntrpc *r; void *a; void (*f)(Mntrpc*, void*); }; struct Mnt { Lock; /* references are counted using c->ref; channels on this mount point incref(c->mchan) == Mnt.c */ Chan *c; /* Channel to file service */ Proc *rip; /* Reader in progress */ Mntrpc *queue; /* Queue of pending requests on this channel */ Mntproc defered[8]; /* Worker processes for defered RPCs (read ahead) */ u32 id; /* Multiplexer id for channel check */ Mnt *list; /* Free list */ s32 flags; /* cache */ s32 msize; /* data + IOHDRSZ */ char *version; /* 9P version */ Queue *q; /* input queue */ }; enum { NUser, /* note provided externally */ NExit, /* deliver note quietly */ NDebug, /* print debug message */ }; struct Note { char msg[ERRMAX]; int flag; /* whether system posted it */ }; enum { RENDLOG = 5, RENDHASH = 1<<RENDLOG, /* Hash to lookup rendezvous tags */ MNTLOG = 5, MNTHASH = 1<<MNTLOG, /* Hash to walk mount table */ DELTAFD= 20, /* allocation quantum for process file descriptors */ MAXNFD = 4000, /* max per process file descriptors */ MAXKEY = 8, /* keys for signed modules */ NFD = 100, /* per process file descriptors */ ENVLOG = 5, ENVHASH = 1<<ENVLOG, /* Egrp hash for variable lookup */ }; #define REND(p,s) ((p)->rendhash[(s)&((1<<RENDLOG)-1)]) #define MOUNTH(p,qid) ((p)->mnthash[(qid).path&((1<<MNTLOG)-1)]) struct Mntparam { Chan* chan; Chan* authchan; char* spec; s32 flags; }; /* * All processes in a process group share the namespace. * Hence, this can be called the namespace group too */ struct Pgrp { Ref; /* also used as a lock when mounting */ RWlock ns; /* Namespace n read/one write lock */ int noattach; Mhead* mnthash[MNTHASH]; u32 pgrpid; QLock debug; /* single access via devproc.c */ QLock nsh; s32 progmode; Chan* dot; Chan* slash; s32 nodevs; s32 pin; }; /* * Array of Chan* (Every file is a Chan* in the server). * fd (file descriptor) is the file's index in that array. * fdtochan(fd) => Chan* */ struct Fgrp { Ref; Lock; Proc *rendhash[RENDHASH]; /* Rendezvous tag hash */ Chan **fd; uchar *flag; /* per file-descriptor flags (CCEXEC) */ s32 nfd; /* number allocated */ s32 maxfd; /* highest fd in use */ s32 minfd; /* lower bound on free fd */ s32 exceed; /* debugging */ }; struct Rgrp { Ref; Lock; Proc *rendhash[RENDHASH]; /* Rendezvous tag hash */ }; struct Evalue { char *value; int len; ulong vers; uvlong path; /* qid.path: Egrp.path << 32 | index (of Egrp.ent[]) */ Evalue *hash; char name[]; }; struct Egrp { Ref; RWlock; Evalue **ent; int nent; /* numer of slots in ent[] */ int low; /* lowest free index in ent[] */ int alloc; /* bytes allocated for env */ ulong path; /* generator for qid path */ ulong vers; /* of Egrp */ Evalue *hash[ENVHASH]; /* hashtable for name lookup */ }; struct Signerkey { Ref; char* owner; u16 footprint; u32 expires; void* alg; void* pk; void (*pkfree)(void*); }; struct Skeyset { Ref; QLock; u32 flags; char* devs; s32 nkey; Signerkey *keys[MAXKEY]; }; struct Waitq { Waitmsg w; Waitq *next; }; /* * fasttick timer interrupts */ enum { /* Mode */ Trelative, /* timer programmed in ns from now */ Tabsolute, /* timer programmed in ns since epoch - not used in 9front */ Tperiodic, /* periodic timer, period in ns */ }; struct Timer { /* Public interface */ int tmode; /* See above */ vlong tns; /* meaning defined by mode */ void (*tf)(Ureg*, Timer*); void *ta; /* Internal */ Lock; Mach *tactive; /* The cpu that tf is active on */ Timers *tt; /* Timers queue this timer runs on */ Tval tticks; /* tns converted to ticks */ Tval twhen; /* ns represented in fastticks */ Timer *tnext; }; enum { Dead = 0, /* Process states */ Moribund, Ready, Scheding, Running, Queueing, QueueingR, QueueingW, Wakeme, Broken, Stopped, Rendezvous, Waitrelease, Proc_stopme = 1, /* devproc requests */ Proc_exitme, Proc_traceme, Proc_exitbig, Proc_tracesyscall, TUser = 0, /* Proc.time */ TSys, TReal, TCUser, TCSys, TCReal, NERR = 64, NNOTE = 5, Unknown = 0, IdleGC, Interp, Forth, BusyGC, Npriq = 20, /* number of scheduler priority levels */ Nrq = Npriq+2, /* number of priority levels including real time */ PriRelease = Npriq, /* released edf processes */ PriEdf = Npriq+1, /* active edf processes */ PriNormal = 10, /* base priority for normal processes */ PriExtra = Npriq-1, /* edf processes at high best-effort pri */ PriKproc = 13, /* base priority for kernel processes */ PriRoot = 13, /* base priority for root processes */ /* used by inferno, remove them at some point when /prog is removed */ PriLock = Npriq, /* Holding Spin lock */ PriRealtime = Npriq+1, /* Video telephony */ PriHicodec = Npriq, /* MPEG codec */ PriLocodec = Npriq, /* Audio codec */ PriHi = Npriq, /* Important task */ PriLo = 7, PriBackground = 4, }; struct Schedq { Lock; Proc* head; Proc* tail; int n; }; /* Needs a default environment to create new processes (spawn, not fork) * * When using forth for the userspace, forth's stack is in fmem. * The kstack is used for everything else. Hence, there is no * stack switching to kstack on a syscall. Forth uses * DX and R8 for stack manipulations to avoid * messing around with SP. */ struct Proc { Label sched; /* known to l.s */ char *kstack; /* known to l.s in 9front to switch to the kernel stack on syscallentry */ Mach *mach; /* machine running this proc */ char *text; char *user; char *args; int nargs; /* number of bytes of args */ int setargs; /* process changed its args */ Proc *rnext; /* next process in run queue */ Proc *qnext; /* next process on queue for a QLock */ char *psstate; /* What /proc/#/status reports */ s32 state; u32 pid; u32 noteid; /* Equivalent of note group */ u32 parentpid; Proc *parent; /* Process to send wait record on exit */ Lock exl; /* Lock count and waitq */ Waitq *waitq; /* Exited processes wait children */ int nchild; /* Number of living children */ int nwait; /* Number of uncollected wait records */ QLock qwaitr; Rendez waitr; /* Place to hang out in wait */ /* QLock seglock; \/* locked whenever seg[] changes *\/ Segment *seg[NSEG];*/ Pgrp *pgrp; /* Process group for namespace */ Egrp *egrp; /* Environment group */ Fgrp *fgrp; /* File descriptor group */ Rgrp *rgrp; /* Rendez group */ Fgrp *closingfgrp; /* used during teardown */ int insyscall; u32 time[6]; /* User, Sys, Real; child U, S, R */ u64 kentry; /* Kernel entry time stamp (for profiling) */ /* * pcycles: cycles spent in this process (updated on procswitch) * when this is the current proc and we're in the kernel * (procrestores outnumber procsaves by one) * the number of cycles spent in the proc is pcycles + cycles() * when this is not the current process or we're in user mode * (procrestores and procsaves balance), it is pcycles. */ s64 pcycles; QLock debug; /* to access debugging elements of User */ Proc *pdbg; /* the debugging process */ /* * Pgrp.progmode is used by inferno and procmode by 9front * Leaving them different, for now */ u32 procmode; /* proc device default file mode */ int privatemem; /* proc does not let anyone read mem */ int noswap; /* process is not swappable */ int hang; /* hang at next exec for debug */ int procctl; /* Control for /proc debugging */ uintptr pc; /* DEBUG only */ Lock rlock; /* sync sleep/wakeup with postnote */ Rendez *r; /* rendezvous point slept on */ Rendez sleep; /* place for syssleep/debug */ int notepending; /* note issued but not acted on */ int kp; /* true if a kernel process */ Proc *palarm; /* Next alarm time */ ulong alarm; /* Time of call */ /* int newtlb; */ /* Pager has changed my pte's, I must flush */ uintptr rendtag; /* Tag for rendezvous */ uintptr rendval; /* Value for rendezvous */ Proc *rendhash; /* Hash list for tag values */ Timer; /* For tsleep and real-time, has twhen of inferno */ Rendez *trend; int (*tfn)(void*); void (*kpfun)(void*); void *kparg; /* Sargs s; *//* TODO uncomment this and scallnr syscall arguments */ /* int scallnr; *//* sys call number */ int nerrlab; Label errlab[NERR]; char *syserrstr; /* last error from a system call, errbuf0 or 1 */ char *errstr; /* reason we're unwinding the error stack, errbuf1 or 0 */ char errbuf0[ERRMAX]; char errbuf1[ERRMAX]; char genbuf[128]; /* buffer used e.g. for last name element from namec */ Chan *slash; Chan *dot; Note note[NNOTE]; short nnote; short notified; /* sysnoted is due */ Note lastnote; int (*notify)(void*, char*); Lock *lockwait; Lock *lastlock; /* debugging */ Lock *lastilock; /* debugging */ Mach *wired; Mach *mp; /* machine this process last ran on */ int nlocks; /* number of locks held by proc */ u32 delaysched; u32 priority; /* priority level */ u32 basepri; /* base priority level */ uchar fixedpri; /* priority level deson't change */ u32 cpu; /* cpu average */ u32 lastupdate; uchar yield; /* non-zero if the process just did a sleep(0) */ u32 readytime; /* time process came ready */ int preempted; /* true if this process hasn't finished the interrupt * that last preempted it */ Edf *edf; /* if non-null, real-time proc, edf contains scheduling params */ int trace; /* process being traced? */ uintptr qpc; /* pc calling last blocking qlock */ QLock *eql; /* interruptable eqlock */ void *ureg; /* User registers for notes */ void *dbgreg; /* User registers for devproc */ PFPU; /* machine specific fpu state */ PMMU; /* machine specific mmu state, obsolete on 9ferno amd64? */ char *syscalltrace; /* syscall trace */ Watchpt *watchpt; /* watchpoints */ int nwatchpt; /* forth specific fields */ Proc *fprev, *fnext; /* forth processes linked list */ void *fmem; /* forth process memory - sandboxed except for macro primitives */ void *shm; /* for devshm */ void *canread; /* for devready.c */ u8 fisgo; /* 0 while waiting for the pctl message */ /* not used by 9front. get rid of it at some point */ intptr errpc; }; enum { /* kproc flags */ KPDUPPG = (1<<0), KPDUPFDG = (1<<1), KPDUPENVG = (1<<2), KPDUP = KPDUPPG | KPDUPFDG | KPDUPENVG }; enum { BrkSched, BrkNoSched, }; struct BkptCond { uchar op; u32 val; BkptCond *next; }; struct Bkpt { s32 id; u32 addr; BkptCond *conditions; Instr instr; void (*handler)(Bkpt*); void *aux; Bkpt *next; Bkpt *link; }; enum { PRINTSIZE = 1024 /*256*/, NUMSIZE = 12, /* size of formatted number */ MB = (1024*1024), READSTR = 1000, /* temporary buffer size for device reads */ }; extern Conf conf; extern char* conffile; extern int consoleprint; extern Dev* devtab[]; extern char* eve; extern char hostdomain[]; extern int hwcurs; extern Queue* kprintoq; extern Queue *kbdq; extern Queue *kscanq; extern Ref noteidalloc; extern uint qiomaxatomic; extern Queue* serialoq; extern char* statename[]; extern char* sysname; extern Talarm talarm; /* * action log */ struct Log { Lock; s32 opens; char* buf; char *end; char *rptr; s32 len; s32 nlog; s32 minread; s32 logmask; /* mask of things to debug */ QLock readq; Rendez readr; }; struct Logflag { char* name; s32 mask; }; struct Cmdbuf { char *buf; char **f; s32 nf; }; struct Cmdtab { s32 index; /* used by client to switch on result */ char *cmd; /* command name */ s32 narg; /* expected #args; 0 ==> variadic */ }; /* * routines to access UART hardware */ struct PhysUart { char* name; Uart* (*pnp)(void); void (*enable)(Uart*, int); void (*disable)(Uart*); void (*kick)(Uart*); void (*dobreak)(Uart*, int); int (*baud)(Uart*, int); int (*bits)(Uart*, int); int (*stop)(Uart*, int); int (*parity)(Uart*, int); void (*modemctl)(Uart*, int); void (*rts)(Uart*, int); void (*dtr)(Uart*, int); long (*status)(Uart*, void*, long, long); void (*fifo)(Uart*, int); void (*power)(Uart*, int); int (*getc)(Uart*); /* polling versions, for iprint, rdb */ void (*putc)(Uart*, int); }; enum { Stagesize= 2048 }; /* * software UART */ struct Uart { void* regs; /* hardware stuff */ void* saveregs; /* place to put registers on power down */ char* name; /* internal name */ ulong freq; /* clock frequency */ int bits; /* bits per character */ int stop; /* stop bits */ int parity; /* even, odd or no parity */ int baud; /* baud rate */ PhysUart*phys; int console; /* used as a serial console */ int special; /* internal kernel device */ Uart* next; /* list of allocated uarts */ QLock; int type; /* ?? */ int dev; int opens; int enabled; Uart *elist; /* next enabled interface */ int perr; /* parity errors */ int ferr; /* framing errors */ int oerr; /* rcvr overruns */ int berr; /* no input buffers */ int serr; /* input queue overflow */ /* buffers */ int (*putc)(Queue*, int); Queue *iq; Queue *oq; Lock rlock; uchar istage[Stagesize]; uchar *iw; uchar *ir; uchar *ie; Lock tlock; /* transmit */ uchar ostage[Stagesize]; uchar *op; uchar *oe; int drain; int modem; /* hardware flow control on */ int xonoff; /* software flow control on */ int blocked; int cts, dsr, dcd, dcdts; /* keep track of modem status */ int ctsbackoff; int hup_dsr, hup_dcd; /* send hangup upstream? */ int dohup; Rendez r; }; extern Uart* consuart; extern int rdbstarted; enum { MAXPOOL = 8, }; extern Pool* mainmem; extern Pool* heapmem; extern Pool* imagmem; /* * performance timers, all units in perfticks */ struct Perf { u32 intrts; /* time of last interrupt */ u32 inintr; /* time since last clock tick in interrupt handlers */ u32 avg_inintr; /* avg time per clock tick in interrupt handlers */ u32 inidle; /* time since last clock tick in idle loop */ u32 avg_inidle; /* avg time per clock tick in idle loop */ u32 last; /* value of perfticks() at last clock tick */ u32 period; /* perfticks() per clock tick */ }; struct Watchdog { void (*enable)(void); /* watchdog enable */ void (*disable)(void); /* watchdog disable */ void (*restart)(void); /* watchdog restart */ void (*stat)(char*, char*); /* watchdog statistics */ }; struct Watchpt { enum { WATCHRD = 1, WATCHWR = 2, WATCHEX = 4, } type; uintptr addr, len; }; struct PMach { Proc* readied; /* for runproc */ /* unused in inferno */ Label sched; /* scheduler wakeup */ ulong ticks; /* of the clock since boot time */ ulong schedticks; /* next forced context switch */ int pfault; int cs; int syscall; int load; int intr; int ilockdepth; int flushmmu; /* make current proc flush it's mmu state */ int tlbfault; int tlbpurge; Perf perf; /* performance counters */ uvlong cyclefreq; /* Frequency of user readable cycle counter */ }; /* queue state bits, Qmsg, Qcoalesce, and Qkick can be set in qopen */ enum { /* Queue.state */ Qstarve = (1<<0), /* consumer starved */ Qmsg = (1<<1), /* message stream */ Qclosed = (1<<2), /* queue has been closed/hungup */ Qflow = (1<<3), /* producer flow controlled */ Qcoalesce = (1<<4), /* coallesce packets on read */ Qkick = (1<<5), /* always call the kick routine after qwrite */ }; #define DEVDOTDOT -1 #pragma varargck argpos print 1 #pragma varargck argpos snprint 3 #pragma varargck argpos seprint 3 #pragma varargck argpos sprint 2 #pragma varargck argpos fprint 2 #pragma varargck argpos iprint 1 #pragma varargck argpos panic 1 #pragma varargck argpos kwerrstr 1 #pragma varargck argpos kprint 1 #pragma varargck type "lld" vlong #pragma varargck type "llx" vlong #pragma varargck type "lld" uvlong #pragma varargck type "llx" uvlong #pragma varargck type "lx" void* #pragma varargck type "ld" long #pragma varargck type "lx" long #pragma varargck type "ld" ulong #pragma varargck type "lx" ulong #pragma varargck type "zd" intptr #pragma varargck type "zo" intptr #pragma varargck type "zx" intptr #pragma varargck type "zd" uintptr #pragma varargck type "zo" uintptr #pragma varargck type "zx" uintptr #pragma varargck type "d" int #pragma varargck type "x" int #pragma varargck type "c" int #pragma varargck type "C" int #pragma varargck type "d" uint #pragma varargck type "x" uint #pragma varargck type "c" uint #pragma varargck type "C" uint #pragma varargck type "f" double #pragma varargck type "e" double #pragma varargck type "g" double #pragma varargck type "s" char* #pragma varargck type "S" Rune* #pragma varargck type "r" void #pragma varargck type "%" void #pragma varargck type "I" uchar* #pragma varargck type "V" uchar* #pragma varargck type "E" uchar* #pragma varargck type "M" uchar* #pragma varargck type "p" uintptr #pragma varargck type "p" void* #pragma varargck type "q" char* /* * Log console output so it can be retrieved via /dev/kmesg. * This is good for catching boot-time messages after the fact. */ struct { Lock lk; uint n; char buf[16384]; } kmesg; /* * shared memory data structures. Modeled after Egrp. used by devshm. */ typedef struct Svalue Svalue; struct Svalue { Ref; RWlock; char *name; char *value; s32 len; s32 vers; u8 dead; /* set by remove() */ }; typedef struct Sgrp Sgrp; struct Sgrp { Ref; RWlock; union{ /* array of Svalue pointers */ Svalue **entries; Svalue **ent; }; int nent; /* number of entries used */ int ment; /* maximum number of entries */ u32 vers; /* of Sgrp */ };