/* * include/asm-s390/ptrace.h * * S390 version * Copyright (C) 1999,2000 IBM Deutschland Entwicklung GmbH, IBM Corporation * Author(s): Denis Joseph Barrow (djbarrow@de.ibm.com,barrow_dj@yahoo.com) */ #ifndef _S390_PTRACE_H #define _S390_PTRACE_H #include #include #include #include #include #include #define S390_REGS \ S390_REGS_COMMON \ __u32 orig_gpr2; typedef struct { S390_REGS } s390_regs; struct pt_regs { S390_REGS __u32 trap; }; #if CONFIG_REMOTE_DEBUG typedef struct { S390_REGS __u32 trap; __u32 crs[16]; s390_fp_regs fp_regs; } gdb_pt_regs; #endif typedef struct { __u32 cr[3]; } per_cr_words __attribute__((packed)); #define PER_EM_MASK 0xE8000000 typedef struct { unsigned em_branching:1; unsigned em_instruction_fetch:1; /* Switching on storage alteration automatically fixes the storage alteration event bit in the users std. */ unsigned em_storage_alteration:1; unsigned em_gpr_alt_unused:1; unsigned em_store_real_address:1; unsigned :3; unsigned branch_addr_ctl:1; unsigned :1; unsigned storage_alt_space_ctl:1; unsigned :5; unsigned :16; addr_t starting_addr; addr_t ending_addr; } per_cr_bits __attribute__((packed)); typedef struct { __u16 perc_atmid; /* 0x096 */ __u32 address; /* 0x098 */ __u8 access_id; /* 0x0a1 */ } per_lowcore_words __attribute__((packed)); typedef struct { unsigned perc_branching:1; /* 0x096 */ unsigned perc_instruction_fetch:1; unsigned perc_storage_alteration:1; unsigned perc_gpr_alt_unused:1; unsigned perc_store_real_address:1; unsigned :3; unsigned :1; unsigned atmid_validity_bit:1; unsigned atmid_psw_bit_32:1; unsigned atmid_psw_bit_5:1; unsigned atmid_psw_bit_16:1; unsigned atmid_psw_bit_17:1; unsigned si:2; addr_t address; /* 0x098 */ unsigned :4; /* 0x0a1 */ unsigned access_id:4; } per_lowcore_bits __attribute__((packed)); typedef enum { primary_asce, ar_asce, secondary_asce, home_space_asce } per_ai_codes; typedef struct { union { per_cr_words words; per_cr_bits bits; } control_regs __attribute__((packed)); /* Use these flags instead of setting em_instruction_fetch */ /* directly they are used so that single stepping can be */ /* switched on & off while not affecting other tracing */ unsigned single_step:1; unsigned instruction_fetch:1; unsigned :30; /* These addresses are copied into cr10 & cr11 if single stepping is switched off */ __u32 starting_addr; __u32 ending_addr; union { per_lowcore_words words; per_lowcore_bits bits; } lowcore; } per_struct __attribute__((packed)); /* this struct defines the way the registers are stored on the stack during a system call. If you change the pt_regs structure, you'll need to change user.h too. N.B. if you modify the pt_regs struct the strace command also has to be modified & recompiled ( just wait till we have gdb going ). */ struct user_regs_struct { S390_REGS s390_fp_regs fp_regs; /* These per registers are in here so that gdb can modify them itself * as there is no "official" ptrace interface for hardware watchpoints. * this is the way intel does it */ per_struct per_info; addr_t ieee_instruction_pointer; /* Used to give failing instruction back to user for ieee exceptions */ }; typedef struct user_regs_struct user_regs_struct; typedef struct pt_regs pt_regs; #ifdef __KERNEL__ #define user_mode(regs) (((regs)->psw.mask & PSW_PROBLEM_STATE) != 0) #define instruction_pointer(regs) ((regs)->psw.addr) extern void show_regs(struct pt_regs * regs); extern char *task_show_regs(struct task_struct *task, char *buffer); #endif #define FIX_PSW(addr) ((unsigned long)(addr)|0x80000000UL) #define MULT_PROCPTR_TYPES ((CONFIG_BINFMT_ELF)&&(CONFIG_BINFMT_TOC)) typedef struct { long addr; long toc; } routine_descriptor; extern void fix_routine_descriptor_regs(routine_descriptor *rdes,pt_regs *regs); extern __inline__ void fix_routine_descriptor_regs(routine_descriptor *rdes,pt_regs *regs) { regs->psw.addr=FIX_PSW(rdes->addr); regs->gprs[12]=rdes->toc; } /* * Compiler optimisation should save this stuff from being non optimal * & remove uneccessary code ( isnt gcc great DJB. ) */ /*I'm just using this an indicator of what binformat we are using * (DJB) N.B. this needs to stay a macro unfortunately as I am otherwise * dereferencing incomplete pointer types in with load_toc_binary */ #if MULT_PROCPTR_TYPES #define uses_routine_descriptors() \ (current->binfmt->load_binary==load_toc_binary) #else #if CONFIG_BINFMT_TOC #define uses_routine_descriptors() 1 #else #define uses_routine_descriptors() 0 #endif #endif #define pt_off(ptreg) offsetof(user_regs_struct,ptreg) enum { PT_PSWMASK=pt_off(psw.mask), PT_PSWADDR=pt_off(psw.addr), PT_GPR0=pt_off(gprs[0]), PT_GPR1=pt_off(gprs[1]), PT_GPR2=pt_off(gprs[2]), PT_GPR3=pt_off(gprs[3]), PT_GPR4=pt_off(gprs[4]), PT_GPR5=pt_off(gprs[5]), PT_GPR6=pt_off(gprs[6]), PT_GPR7=pt_off(gprs[7]), PT_GPR8=pt_off(gprs[8]), PT_GPR9=pt_off(gprs[9]), PT_GPR10=pt_off(gprs[10]), PT_GPR11=pt_off(gprs[11]), PT_GPR12=pt_off(gprs[12]), PT_GPR13=pt_off(gprs[13]), PT_GPR14=pt_off(gprs[14]), PT_GPR15=pt_off(gprs[15]), PT_ACR0=pt_off(acrs[0]), PT_ACR1=pt_off(acrs[1]), PT_ACR2=pt_off(acrs[2]), PT_ACR3=pt_off(acrs[3]), PT_ACR4=pt_off(acrs[4]), PT_ACR5=pt_off(acrs[5]), PT_ACR6=pt_off(acrs[6]), PT_ACR7=pt_off(acrs[7]), PT_ACR8=pt_off(acrs[8]), PT_ACR9=pt_off(acrs[9]), PT_ACR10=pt_off(acrs[10]), PT_ACR11=pt_off(acrs[11]), PT_ACR12=pt_off(acrs[12]), PT_ACR13=pt_off(acrs[13]), PT_ACR14=pt_off(acrs[14]), PT_ACR15=pt_off(acrs[15]), PT_ORIGGPR2=pt_off(orig_gpr2), PT_FPC=pt_off(fp_regs.fpc), /* * A nasty fact of life that the ptrace api * only supports passing of longs. */ PT_FPR0_HI=pt_off(fp_regs.fprs[0].fp.hi), PT_FPR0_LO=pt_off(fp_regs.fprs[0].fp.lo), PT_FPR1_HI=pt_off(fp_regs.fprs[1].fp.hi), PT_FPR1_LO=pt_off(fp_regs.fprs[1].fp.lo), PT_FPR2_HI=pt_off(fp_regs.fprs[2].fp.hi), PT_FPR2_LO=pt_off(fp_regs.fprs[2].fp.lo), PT_FPR3_HI=pt_off(fp_regs.fprs[3].fp.hi), PT_FPR3_LO=pt_off(fp_regs.fprs[3].fp.lo), PT_FPR4_HI=pt_off(fp_regs.fprs[4].fp.hi), PT_FPR4_LO=pt_off(fp_regs.fprs[4].fp.lo), PT_FPR5_HI=pt_off(fp_regs.fprs[5].fp.hi), PT_FPR5_LO=pt_off(fp_regs.fprs[5].fp.lo), PT_FPR6_HI=pt_off(fp_regs.fprs[6].fp.hi), PT_FPR6_LO=pt_off(fp_regs.fprs[6].fp.lo), PT_FPR7_HI=pt_off(fp_regs.fprs[7].fp.hi), PT_FPR7_LO=pt_off(fp_regs.fprs[7].fp.lo), PT_FPR8_HI=pt_off(fp_regs.fprs[8].fp.hi), PT_FPR8_LO=pt_off(fp_regs.fprs[8].fp.lo), PT_FPR9_HI=pt_off(fp_regs.fprs[9].fp.hi), PT_FPR9_LO=pt_off(fp_regs.fprs[9].fp.lo), PT_FPR10_HI=pt_off(fp_regs.fprs[10].fp.hi), PT_FPR10_LO=pt_off(fp_regs.fprs[10].fp.lo), PT_FPR11_HI=pt_off(fp_regs.fprs[11].fp.hi), PT_FPR11_LO=pt_off(fp_regs.fprs[11].fp.lo), PT_FPR12_HI=pt_off(fp_regs.fprs[12].fp.hi), PT_FPR12_LO=pt_off(fp_regs.fprs[12].fp.lo), PT_FPR13_HI=pt_off(fp_regs.fprs[13].fp.hi), PT_FPR13_LO=pt_off(fp_regs.fprs[13].fp.lo), PT_FPR14_HI=pt_off(fp_regs.fprs[14].fp.hi), PT_FPR14_LO=pt_off(fp_regs.fprs[14].fp.lo), PT_FPR15_HI=pt_off(fp_regs.fprs[15].fp.hi), PT_FPR15_LO=pt_off(fp_regs.fprs[15].fp.lo), PT_CR_9=pt_off(per_info.control_regs.words.cr[0]), PT_CR_10=pt_off(per_info.control_regs.words.cr[1]), PT_CR_11=pt_off(per_info.control_regs.words.cr[2]), PT_IEEE_IP=pt_off(ieee_instruction_pointer), PT_LASTOFF=PT_IEEE_IP, PT_ENDREGS=sizeof(user_regs_struct)-1 }; #define PTRACE_AREA \ __u32 len; \ addr_t kernel_addr; \ addr_t process_addr; typedef struct { PTRACE_AREA } ptrace_area; /* 390 specific non posix ptrace requests I chose unusual values so they are unlikely to clash with future ptrace definitions. */ #define PTRACE_PEEKUSR_AREA 0x5000 #define PTRACE_POKEUSR_AREA 0x5001 #define PTRACE_PEEKTEXT_AREA 0x5002 #define PTRACE_PEEKDATA_AREA 0x5003 #define PTRACE_POKETEXT_AREA 0x5004 #define PTRACE_POKEDATA_AREA 0x5005 /* PT_PROT definition is loosely based on hppa bsd definition in gdb/hppab-nat.c */ #define PTRACE_PROT 21 typedef enum { ptprot_set_access_watchpoint, ptprot_set_write_watchpoint, ptprot_disable_watchpoint } ptprot_flags; typedef struct { addr_t lowaddr; addr_t hiaddr; ptprot_flags prot; } ptprot_area; #endif