/* * Vestigial Segmented Virtual Memory. * To do: * dynamic allocation and free of descriptors; * IST should perhaps point to a different handler; * user-level descriptors (if not dynamic). */ #include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "amd64.h" #include "ureg.h" typedef struct Gd Gd; typedef u64int Sd; typedef u16int Ss; typedef struct Tss Tss; struct Gd { Sd sd; u64int hi; }; struct Tss { u32int _0_; u32int rsp0[2]; u32int rsp1[2]; u32int rsp2[2]; u32int _28_[2]; u32int ist[14]; u16int _92_[5]; u16int iomap; }; enum { Ngdt = 16, /* max. entries in gdt */ Nidt = 256, /* max. entries in idt */ }; static Sd gdt64[Ngdt] = { 0ull, /* NULL descriptor */ SdL|SdP|SdDPL0|SdS|SdCODE, /* CS */ SdG|SdD|SdP|SdDPL0|SdS|SdW, /* DS */ SdG|SdD|SdP|SdDPL3|SdS|SdCODE|SdR|Sd4G, /* User CS 32-bit */ SdG|SdD|SdP|SdDPL3|SdS|SdW|Sd4G, /* User DS */ SdL|SdP|SdDPL3|SdS|SdCODE, /* User CS 64-bit */ 0ull, /* FS */ 0ull, /* GS */ 0ull, /* TSS lower */ 0ull, /* TSS upper */ }; static int ngdt64 = 10; static Gd idt64[Nidt]; static Sd mksd(u64int base, u64int limit, u64int bits, u64int* upper) { Sd sd; sd = bits; sd |= (((limit & 0x00000000000f0000ull)>>16)<<48) |(limit & 0x000000000000ffffull); sd |= (((base & 0x00000000ff000000ull)>>24)<<56) |(((base & 0x0000000000ff0000ull)>>16)<<32) |((base & 0x000000000000ffffull)<<16); if(upper != nil) *upper = base>>32; return sd; } static void mkgd(Gd* gd, u64int offset, Ss ss, u64int bits, int ist) { Sd sd; sd = bits; sd |= (((offset & 0x00000000ffff0000ull)>>16)<<48) |(offset & 0x000000000000ffffull); sd |= ((ss & 0x000000000000ffffull)<<16); sd |= (ist & (SdISTM>>32))<<32; gd->sd = sd; gd->hi = offset>>32; } static void idtinit(Gd *gd, uintptr offset) { int ist, v; u64int dpl; for(v = 0; v < Nidt; v++){ ist = 0; dpl = SdP|SdDPL0|SdIG; switch(v){ default: break; case IdtBP: /* #BP */ dpl = SdP|SdDPL3|SdIG; break; case IdtDF: /* #DF */ ist = 1; break; } mkgd(gd, offset, SSEL(SiCS, SsTIGDT|SsRPL0), dpl, ist); gd++; offset += 6; } } void tssrsp0(uintptr sp) { Tss *tss; tss = m->tss; tss->rsp0[0] = sp; tss->rsp0[1] = sp>>32; } static void tssinit(uintptr sp) { int ist; Tss *tss; tss = m->tss; memset(tss, 0, sizeof(Tss)); tssrsp0(sp); sp = PTR2UINT(m->vsvm+PGSZ); for(ist = 0; ist < 14; ist += 2){ tss->ist[ist] = sp; tss->ist[ist+1] = sp>>32; } tss->iomap = 0xdfff; } void vsvminit(int size) { Sd *sd; u64int r; if(m->machno == 0){ idtinit(idt64, PTR2UINT(idthandlers)); } m->gdt = m->vsvm; memmove(m->gdt, gdt64, sizeof(gdt64)); m->tss = &m->vsvm[ROUNDUP(sizeof(gdt64), 16)]; sd = &((Sd*)m->gdt)[SiTSS]; *sd = mksd(PTR2UINT(m->tss), sizeof(Tss)-1, SdP|SdDPL0|SdaTSS, sd+1); tssinit(m->stack+size); gdtput(sizeof(gdt64)-1, PTR2UINT(m->gdt), SSEL(SiCS, SsTIGDT|SsRPL0)); idtput(sizeof(idt64)-1, PTR2UINT(idt64)); trput(SSEL(SiTSS, SsTIGDT|SsRPL0)); wrmsr(FSbase, 0ull); wrmsr(GSbase, PTR2UINT(&sys->machptr[m->machno])); wrmsr(KernelGSbase, 0ull); r = rdmsr(Efer); r |= Sce; wrmsr(Efer, r); r = ((u64int)SSEL(SiU32CS, SsRPL3))<<48; r |= ((u64int)SSEL(SiCS, SsRPL0))<<32; wrmsr(Star, r); wrmsr(Lstar, PTR2UINT(syscallentry)); wrmsr(Sfmask, If); } int userureg(Ureg* ureg) { return ureg->cs == SSEL(SiUCS, SsRPL3); }