ref: 502fe5af32a3d275aa89ffc834157bdbabc45c50
dir: /sys/src/9/teg2/dat.h/
/* * Time. * * HZ should divide 1000 evenly, ideally. * 100, 125, 200, 250 and 333 are okay. */ #define HZ 100 /* clock frequency */ #define MS2HZ (1000/HZ) /* millisec per clock tick */ #define TK2SEC(t) ((t)/HZ) /* ticks to seconds */ enum { Mhz = 1000 * 1000, Dogsectimeout = 4, /* must be ≤ 34 s. to fit in a ulong */ }; /* * More accurate time */ #define MS2TMR(t) ((ulong)(((uvlong)(t) * m->cpuhz)/1000)) #define US2TMR(t) ((ulong)(((uvlong)(t) * m->cpuhz)/1000000)) #define CONSOLE 0 typedef struct Conf Conf; typedef struct Confmem Confmem; typedef struct FPsave FPsave; typedef struct PFPU PFPU; typedef struct ISAConf ISAConf; typedef struct Isolated Isolated; typedef struct Label Label; typedef struct Lock Lock; typedef struct Lowmemcache Lowmemcache; typedef struct Memcache Memcache; typedef struct MMMU MMMU; typedef struct Mach Mach; typedef u32int Mreg; /* Msr - bloody UART */ typedef struct Page Page; typedef struct Pcisiz Pcisiz; typedef struct Pcidev Pcidev; typedef struct PhysUart PhysUart; typedef struct PMMU PMMU; typedef struct Proc Proc; typedef u32int PTE; typedef struct Soc Soc; typedef struct Uart Uart; typedef struct Ureg Ureg; typedef uvlong Tval; #pragma incomplete Pcidev #pragma incomplete Ureg #define MAXSYSARG 5 /* for mount(fd, mpt, flag, arg, srv) */ /* * parameters for sysproc.c */ #define AOUT_MAGIC (E_MAGIC) struct Lock { ulong key; u32int sr; uintptr pc; Proc* p; Mach* m; int isilock; }; struct Label { uintptr sp; uintptr pc; }; /* * emulated or vfp3 floating point */ enum { Maxfpregs = 32, /* could be 16 or 32, see Mach.fpnregs */ Nfpctlregs = 16, }; struct FPsave { ulong status; ulong control; /* * vfp3 with ieee fp regs; uvlong is sufficient for hardware but * each must be able to hold an Internal from fpi.h for sw emulation. */ ulong regs[Maxfpregs][3]; int fpstate; uintptr pc; /* of failed fp instr. */ }; struct PFPU { int fpstate; FPsave fpsave[1]; }; enum { FPinit, FPactive, FPinactive, FPemu, /* bit or'd with the state */ FPillegal= 0x100, }; struct Confmem { uintptr base; ulong npage; uintptr limit; uintptr kbase; uintptr klimit; }; struct Conf { ulong nmach; /* processors */ ulong nproc; /* processes */ Confmem mem[1]; /* physical memory */ ulong npage; /* total physical pages of memory */ ulong upages; /* user page pool */ ulong copymode; /* 0 is copy on write, 1 is copy on reference */ ulong ialloc; /* max interrupt time allocation in bytes */ ulong pipeqsize; /* size in bytes of pipe queues */ ulong nimage; /* number of page cache image headers */ ulong nswap; /* number of swap pages */ int nswppo; /* max # of pageouts per segment pass */ ulong hz; /* processor cycle freq */ ulong mhz; int monitor; /* flag */ }; /* * MMU stuff in Mach. */ struct MMMU { PTE* mmul1; /* l1 for this processor */ int mmul1lo; int mmul1hi; int mmupid; }; /* * MMU stuff in proc */ #define NCOLOR 1 /* 1 level cache, don't worry about VCE's */ struct PMMU { Page* mmul2; Page* mmul2cache; /* free mmu pages */ }; #include "../port/portdat.h" struct Mach { int machno; /* physical id of processor */ uintptr splpc; /* pc of last caller to splhi */ Proc* proc; /* current process on this processor */ MMMU; /* end of offsets known to asm */ PMach; uvlong fastclock; /* last sampled value */ int inclockintr; int inidlehands; int probing; /* probeaddr() state */ int trapped; Lock probelock; int cputype; ulong delayloop; int cpumhz; uvlong cpuhz; /* speed of cpu */ /* vfp3 fpu */ int havefp; int havefpvalid; int fpon; int fpconfiged; int fpnregs; ulong fpscr; /* sw copy */ int fppid; /* pid of last fault */ uintptr fppc; /* addr of last fault */ int fpcnt; /* how many consecutive at that addr */ /* save areas for exceptions, hold R0-R4 */ u32int sfiq[5]; u32int sirq[5]; u32int sund[5]; u32int sabt[5]; u32int smon[5]; /* probably not needed */ u32int ssys[5]; uintptr stack[1]; }; /* * Fake kmap. */ typedef void KMap; #define VA(k) ((uintptr)(k)) #define kmap(p) (KMap*)((p)->pa|kseg0) #define kunmap(k) struct { Lock; char machs[MAXMACH]; /* active CPUs */ int wfi; /* bitmap of CPUs in WFI state */ int stopped; /* bitmap of CPUs stopped */ int exiting; /* shutdown */ }active; extern register Mach* m; /* R10 */ extern register Proc* up; /* R9 */ /* an object guaranteed to be in its own cache line */ typedef uchar Cacheline[CACHELINESZ]; struct Isolated { Cacheline c0; ulong word; Cacheline c1; }; extern Memcache cachel[]; /* arm arch v7 supports 1-7 */ extern ulong intrcount[MAXMACH]; extern int irqtooearly; extern uintptr kseg0; extern Isolated l1ptstable; extern uchar *l2pages; extern Mach* machaddr[MAXMACH]; extern ulong memsize; extern int navailcpus; extern int normalprint; /* * a parsed plan9.ini line */ #define NISAOPT 8 struct ISAConf { char *type; ulong port; int irq; ulong dma; ulong mem; ulong size; ulong freq; int nopt; char *opt[NISAOPT]; }; #define MACHP(n) machaddr[n] /* * Horrid. But the alternative is 'defined'. */ #ifdef _DBGC_ #define DBGFLG (dbgflg[_DBGC_]) #else #define DBGFLG (0) #endif /* _DBGC_ */ int vflag; extern char dbgflg[256]; #define dbgprint print /* for now */ /* * hardware info about a device */ typedef struct { ulong port; int size; } Devport; struct DevConf { ulong intnum; /* interrupt number */ char *type; /* card type, malloced */ int nports; /* Number of ports */ Devport *ports; /* The ports themselves */ }; /* characteristics of a given arm cache level */ struct Memcache { uint waysh; /* shifts for set/way register */ uint setsh; uint log2linelen; uint level; /* 1 is nearest processor, 2 further away */ uint type; uint external; /* flag */ uint l1ip; /* l1 I policy */ uint nways; /* associativity */ uint nsets; uint linelen; /* bytes per cache line */ uint setsways; }; enum Cachetype { Nocache, Ionly, Donly, Splitid, Unified, }; enum { Intcache, Extcache, }; /* * characteristics of cache level, kept at low, fixed address (CACHECONF). * all offsets are known to cache.v7.s. */ struct Lowmemcache { uint l1waysh; /* shifts for set/way register */ uint l1setsh; uint l2waysh; uint l2setsh; }; /* * cache capabilities. write-back vs write-through is controlled * by the Buffered bit in PTEs. * * see cache.v7.s and Memcache in dat.h */ enum { Cawt = 1 << 31, Cawb = 1 << 30, Cara = 1 << 29, Cawa = 1 << 28, }; /* non-architectural L2 cache */ typedef struct Cacheimpl Cacheimpl; struct Cacheimpl { void (*info)(Memcache *); void (*on)(void); void (*off)(void); void (*inv)(void); void (*wb)(void); void (*wbinv)(void); void (*invse)(void *, int); void (*wbse)(void *, int); void (*wbinvse)(void *, int); }; /* extern */ Cacheimpl *l2cache, *allcache, *nocache, *l1cache; enum Dmamode { Const, Postincr, Index, Index2, }; /* pmu = power management unit */ enum Irqs { /* * 1st 32 gic irqs reserved for cpu; private interrupts. * 0—15 are software-generated by other cpus; * 16—31 are private peripheral intrs. */ Cpu0irq = 0, Cpu1irq, /* ... */ Cpu15irq = 15, Glbtmrirq = 27, Loctmrirq = 29, Wdtmrirq = 30, /* shared interrupts */ Ctlr0base = (1+0)*32, /* primary ctlr */ Tn0irq = Ctlr0base + 0, /* tegra timers */ Tn1irq = Ctlr0base + 1, Rtcirq = Ctlr0base + 2, Ctlr1base = (1+1)*32, /* secondary ctlr */ Uartirq = Ctlr1base + 4, Tn2irq = Ctlr1base + 9, /* tegra timers */ Tn3irq = Ctlr1base + 10, /* +24 is cpu0_pmu_intr, +25 is cpu1_pum_intr */ Ctlr2base = (1+2)*32, /* ternary ctlr */ Extpmuirq = Ctlr2base + 22, Ctlr3base = (1+3)*32, /* quad ctlr */ Pcieirq = Ctlr3base + 2, }; struct Soc { /* addr's of SoC controllers */ uintptr clkrst; uintptr power; uintptr exceptvec; uintptr sema; uintptr l2cache; uintptr flow; /* private memory region */ uintptr scu; uintptr intr; /* `cpu interface' */ /* private-peripheral-interrupt cortex-a clocks */ uintptr glbtmr; uintptr loctmr; uintptr intrdist; uintptr uart[5]; /* shared-peripheral-interrupt tegra2 clocks */ uintptr rtc; /* real-time clock */ uintptr tmr[4]; uintptr µs; uintptr pci; uintptr ether; uintptr ehci; uintptr ide; uintptr nand; uintptr nor; uintptr spi[4]; uintptr twsi; uintptr mmc[4]; uintptr gpio[7]; } soc; extern Soc soc;