From a8c99f38d2d65ca4c4689abb337869fcb0743b7a Mon Sep 17 00:00:00 2001 From: Jim Blandy Date: Wed, 18 Feb 2004 04:07:48 +0000 Subject: [PATCH] 2004-02-17 Ulrich Weigand Committed by Jim Blandy . * s390-tdep.c: Include "trad-frame.h", "frame-base.h", and "frame-unwind.h". (s390_readinstruction): Reformat. Use read_memory_nobpt. (GDB_TARGET_IS_ESAME, S390_GPR_SIZE, S390_FPR_SIZE): Remove. (S390_SYSCALL_OPCODE, S390_SYSCALL_SIZE): Remove. (S390_SIGCONTEXT_SREGS_OFFSET, S390X_SIGCONTEXT_SREGS_OFFSET, S390_SIGREGS_FP0_OFFSET, S390X_SIGREGS_FP0_OFFSET, S390_UC_MCONTEXT_OFFSET, S390X_UC_MCONTEXT_OFFSET, S390_SIGNAL_FRAMESIZE, s390_NR_sigreturn, s390_NR_rt_sigreturn): Remove. (struct frame_extra_info): Remove. (s390_memset_extra_info): Remove. (op_*, op1_*, op2_* enums): Add several new opcodes. (is_rse): Renamed to ... (is_rsy): ... this. Support long displacements. (is_rxe): Renamed to ... (is_rxy): ... this. Support long displacements. (compute_x_addr): Support long displacements. (struct s390_prologue_data): New data type. (s390_on_stack): Change API to use struct s390_prologue_data. (s390_store): Reimplement. (s390_load): New function. (s390_get_signal_frame_info): Remove. (s390_get_frame_info): Remove, replace by ... (s390_analyze_prolog): ... this new function. (s390_check_function_end): Remove. (s390_function_start): Remove. (s390_frameless_function_invokation): Remove. (s390_is_sigreturn): Remove. (s390_init_frame_pc_first): Remove. (s390_init_frame_extra_info): Remove. (s390_frame_init_saved_regs): Remove. (s390_frame_saved_pc_nofix): Remove. (s390_frame_saved_pc): Remove. (s390_frame_chain): Remove. (s390_fp_regnum, s390_read_fp): Remove. (s390_pop_frame_regular, s390_pop_frame): Remove. (s390_saved_pc_after_call): Remove. (s390_skip_prologue): Reimplement. (s390_in_function_epilogue_p): Support long displacements. (struct s390_unwind_cache): New data structure. (s390_frame_unwind_cache): New function. (s390_prologue_frame_unwind_cache): Likewise. (s390_backchain_frame_unwind_cache): Likewise. (s390_frame_this_id, s390_frame_prev_register): Likewise. (s390_frame_unwind): Define. (s390_frame_sniffer): New function. (struct s390_pltstub_unwind_cache): New data structure. (s390_pltstub_frame_unwind_cache): New function. (s390_pltstub_frame_this_id): Likewise. (s390_pltstub_frame_prev_register): Likewise. (s390_pltstub_frame_unwind): Define. (s390_pltstub_frame_sniffer): New function. (struct s390_sigtramp_unwind_cache): New data structure. (s390_sigtramp_frame_unwind_cache): New function. (s390_sigtramp_frame_this_id): Likewise. (s390_sigtramp_frame_prev_register): Likewise. (s390_sigtramp_frame_unwind): Define. (s390_sigtramp_frame_sniffer): New function. (s390_frame_base_address, s390_local_base_address): New functions. (s390_frame_base): Define. (s390_unwind_pc, s390_unwind_sp): New function. (s390_push_dummy_call): Use new frame base location. (s390_unwind_dummy_id): Likewise. (s390_gdbarch_init): Remove calls to: set_gdbarch_frameless_function_invocation, set_gdbarch_deprecated_init_frame_pc, set_gdbarch_deprecated_frame_chain, set_gdbarch_deprecated_frame_init_saved_regs, set_gdbarch_deprecated_pop_frame, set_gdbarch_deprecated_init_extra_frame_info, set_gdbarch_deprecated_init_frame_pc_first, set_gdbarch_deprecated_target_read_fp, set_gdbarch_deprecated_frame_saved_pc, set_gdbarch_deprecated_saved_pc_after_call, set_gdbarch_deprecated_fp_regnum. Add calls to: set_gdbarch_in_solib_call_trampoline, frame_unwind_append_sniffer, frame_base_set_default, set_gdbarch_unwind_pc, set_gdbarch_unwind_sp. * Makefile.in (s390-tdep.o): Update dependencies. --- gdb/ChangeLog | 84 ++ gdb/Makefile.in | 1 + gdb/s390-tdep.c | 1941 +++++++++++++++++++++++------------------------ 3 files changed, 1034 insertions(+), 992 deletions(-) diff --git a/gdb/ChangeLog b/gdb/ChangeLog index f15e9f6921..d4e53c1b53 100644 --- a/gdb/ChangeLog +++ b/gdb/ChangeLog @@ -2,6 +2,90 @@ Committed by Jim Blandy . + * s390-tdep.c: Include "trad-frame.h", "frame-base.h", and + "frame-unwind.h". + (s390_readinstruction): Reformat. Use read_memory_nobpt. + (GDB_TARGET_IS_ESAME, S390_GPR_SIZE, S390_FPR_SIZE): Remove. + (S390_SYSCALL_OPCODE, S390_SYSCALL_SIZE): Remove. + (S390_SIGCONTEXT_SREGS_OFFSET, S390X_SIGCONTEXT_SREGS_OFFSET, + S390_SIGREGS_FP0_OFFSET, S390X_SIGREGS_FP0_OFFSET, + S390_UC_MCONTEXT_OFFSET, S390X_UC_MCONTEXT_OFFSET, + S390_SIGNAL_FRAMESIZE, + s390_NR_sigreturn, s390_NR_rt_sigreturn): Remove. + (struct frame_extra_info): Remove. + (s390_memset_extra_info): Remove. + (op_*, op1_*, op2_* enums): Add several new opcodes. + (is_rse): Renamed to ... + (is_rsy): ... this. Support long displacements. + (is_rxe): Renamed to ... + (is_rxy): ... this. Support long displacements. + (compute_x_addr): Support long displacements. + (struct s390_prologue_data): New data type. + (s390_on_stack): Change API to use struct s390_prologue_data. + (s390_store): Reimplement. + (s390_load): New function. + (s390_get_signal_frame_info): Remove. + (s390_get_frame_info): Remove, replace by ... + (s390_analyze_prolog): ... this new function. + (s390_check_function_end): Remove. + (s390_function_start): Remove. + (s390_frameless_function_invokation): Remove. + (s390_is_sigreturn): Remove. + (s390_init_frame_pc_first): Remove. + (s390_init_frame_extra_info): Remove. + (s390_frame_init_saved_regs): Remove. + (s390_frame_saved_pc_nofix): Remove. + (s390_frame_saved_pc): Remove. + (s390_frame_chain): Remove. + (s390_fp_regnum, s390_read_fp): Remove. + (s390_pop_frame_regular, s390_pop_frame): Remove. + (s390_saved_pc_after_call): Remove. + (s390_skip_prologue): Reimplement. + (s390_in_function_epilogue_p): Support long displacements. + (struct s390_unwind_cache): New data structure. + (s390_frame_unwind_cache): New function. + (s390_prologue_frame_unwind_cache): Likewise. + (s390_backchain_frame_unwind_cache): Likewise. + (s390_frame_this_id, s390_frame_prev_register): Likewise. + (s390_frame_unwind): Define. + (s390_frame_sniffer): New function. + (struct s390_pltstub_unwind_cache): New data structure. + (s390_pltstub_frame_unwind_cache): New function. + (s390_pltstub_frame_this_id): Likewise. + (s390_pltstub_frame_prev_register): Likewise. + (s390_pltstub_frame_unwind): Define. + (s390_pltstub_frame_sniffer): New function. + (struct s390_sigtramp_unwind_cache): New data structure. + (s390_sigtramp_frame_unwind_cache): New function. + (s390_sigtramp_frame_this_id): Likewise. + (s390_sigtramp_frame_prev_register): Likewise. + (s390_sigtramp_frame_unwind): Define. + (s390_sigtramp_frame_sniffer): New function. + (s390_frame_base_address, s390_local_base_address): New functions. + (s390_frame_base): Define. + (s390_unwind_pc, s390_unwind_sp): New function. + (s390_push_dummy_call): Use new frame base location. + (s390_unwind_dummy_id): Likewise. + (s390_gdbarch_init): Remove calls to: + set_gdbarch_frameless_function_invocation, + set_gdbarch_deprecated_init_frame_pc, + set_gdbarch_deprecated_frame_chain, + set_gdbarch_deprecated_frame_init_saved_regs, + set_gdbarch_deprecated_pop_frame, + set_gdbarch_deprecated_init_extra_frame_info, + set_gdbarch_deprecated_init_frame_pc_first, + set_gdbarch_deprecated_target_read_fp, + set_gdbarch_deprecated_frame_saved_pc, + set_gdbarch_deprecated_saved_pc_after_call, + set_gdbarch_deprecated_fp_regnum. + Add calls to: + set_gdbarch_in_solib_call_trampoline, + frame_unwind_append_sniffer, + frame_base_set_default, + set_gdbarch_unwind_pc, + set_gdbarch_unwind_sp. + * Makefile.in (s390-tdep.o): Update dependencies. + * s390-tdep.c (struct gdbarch_tdep): Add 'abi' member. (S390_STACK_FRAME_OVERHEAD): Remove. (S390_STACK_PARAMETER_ALIGNMENT): Remove. diff --git a/gdb/Makefile.in b/gdb/Makefile.in index ff14106143..b26c3f3fb9 100644 --- a/gdb/Makefile.in +++ b/gdb/Makefile.in @@ -2181,6 +2181,7 @@ s390-nat.o: s390-nat.c $(defs_h) $(tm_h) $(regcache_h) $(inferior_h) \ s390-tdep.o: s390-tdep.c $(defs_h) $(arch_utils_h) $(frame_h) $(inferior_h) \ $(symtab_h) $(target_h) $(gdbcore_h) $(gdbcmd_h) $(symfile_h) \ $(objfiles_h) $(tm_h) $(__bfd_bfd_h) $(floatformat_h) $(regcache_h) \ + $(trad_frame_h) $(frame_base_h) $(frame_unwind_h) \ $(reggroups_h) $(regset_h) $(value_h) $(gdb_assert_h) $(dis_asm_h) \ $(s390_tdep_h) scm-exp.o: scm-exp.c $(defs_h) $(symtab_h) $(gdbtypes_h) $(expression_h) \ diff --git a/gdb/s390-tdep.c b/gdb/s390-tdep.c index f55564e355..227213f2a5 100644 --- a/gdb/s390-tdep.c +++ b/gdb/s390-tdep.c @@ -35,6 +35,9 @@ #include "../bfd/bfd.h" #include "floatformat.h" #include "regcache.h" +#include "trad-frame.h" +#include "frame-base.h" +#include "frame-unwind.h" #include "reggroups.h" #include "regset.h" #include "value.h" @@ -472,72 +475,6 @@ s390_regset_from_core_section (struct gdbarch *gdbarch, } -#define GDB_TARGET_IS_ESAME (TARGET_ARCHITECTURE->mach == bfd_mach_s390_64) -#define S390_GPR_SIZE (GDB_TARGET_IS_ESAME ? 8 : 4) -#define S390_FPR_SIZE (8) -#define S390_MAX_INSTR_SIZE (6) -#define S390_SYSCALL_OPCODE (0x0a) -#define S390_SYSCALL_SIZE (2) -#define S390_SIGCONTEXT_SREGS_OFFSET (8) -#define S390X_SIGCONTEXT_SREGS_OFFSET (8) -#define S390_SIGREGS_FP0_OFFSET (144) -#define S390X_SIGREGS_FP0_OFFSET (216) -#define S390_UC_MCONTEXT_OFFSET (256) -#define S390X_UC_MCONTEXT_OFFSET (344) -#define S390_SIGNAL_FRAMESIZE (GDB_TARGET_IS_ESAME ? 160:96) -#define s390_NR_sigreturn 119 -#define s390_NR_rt_sigreturn 173 - - - -struct frame_extra_info -{ - int initialised; - int good_prologue; - CORE_ADDR function_start; - CORE_ADDR skip_prologue_function_start; - CORE_ADDR saved_pc_valid; - CORE_ADDR saved_pc; - CORE_ADDR sig_fixed_saved_pc_valid; - CORE_ADDR sig_fixed_saved_pc; - CORE_ADDR frame_pointer_saved_pc; /* frame pointer needed for alloca */ - CORE_ADDR stack_bought_valid; - CORE_ADDR stack_bought; /* amount we decrement the stack pointer by */ - CORE_ADDR sigcontext; -}; - - -static CORE_ADDR s390_frame_saved_pc_nofix (struct frame_info *fi); - -static int -s390_readinstruction (bfd_byte instr[], CORE_ADDR at) -{ - int instrlen; - - static int s390_instrlen[] = { - 2, - 4, - 4, - 6 - }; - if (target_read_memory (at, &instr[0], 2)) - return -1; - instrlen = s390_instrlen[instr[0] >> 6]; - if (instrlen > 2) - { - if (target_read_memory (at + 2, &instr[2], instrlen - 2)) - return -1; - } - return instrlen; -} - -static void -s390_memset_extra_info (struct frame_extra_info *fextra_info) -{ - memset (fextra_info, 0, sizeof (struct frame_extra_info)); -} - - /* Prologue analysis. */ /* When we analyze a prologue, we're really doing 'abstract @@ -929,32 +866,72 @@ pv_is_array_ref (struct prologue_value *addr, op1_* and op2_* enums. */ enum { - op1_aghi = 0xa7, op2_aghi = 0xb, - op1_ahi = 0xa7, op2_ahi = 0xa, - op_ar = 0x1a, - op_basr = 0x0d, - op1_bras = 0xa7, op2_bras = 0x5, - op_l = 0x58, - op_la = 0x41, - op1_larl = 0xc0, op2_larl = 0x0, - op_lgr = 0xb904, - op1_lghi = 0xa7, op2_lghi = 0x9, - op1_lhi = 0xa7, op2_lhi = 0x8, + op1_lhi = 0xa7, op2_lhi = 0x08, + op1_lghi = 0xa7, op2_lghi = 0x09, op_lr = 0x18, - op_nr = 0x14, - op_ngr = 0xb980, - op_s = 0x5b, + op_lgr = 0xb904, + op_l = 0x58, + op1_ly = 0xe3, op2_ly = 0x58, + op1_lg = 0xe3, op2_lg = 0x04, + op_lm = 0x98, + op1_lmy = 0xeb, op2_lmy = 0x98, + op1_lmg = 0xeb, op2_lmg = 0x04, op_st = 0x50, - op_std = 0x60, + op1_sty = 0xe3, op2_sty = 0x50, op1_stg = 0xe3, op2_stg = 0x24, + op_std = 0x60, op_stm = 0x90, + op1_stmy = 0xeb, op2_stmy = 0x90, op1_stmg = 0xeb, op2_stmg = 0x24, - op_lm = 0x98, - op1_lmg = 0xeb, op2_lmg = 0x04, - op_svc = 0x0a, + op1_aghi = 0xa7, op2_aghi = 0x0b, + op1_ahi = 0xa7, op2_ahi = 0x0a, + op_ar = 0x1a, + op_agr = 0xb908, + op_a = 0x5a, + op1_ay = 0xe3, op2_ay = 0x5a, + op1_ag = 0xe3, op2_ag = 0x08, + op_sr = 0x1b, + op_sgr = 0xb909, + op_s = 0x5b, + op1_sy = 0xe3, op2_sy = 0x5b, + op1_sg = 0xe3, op2_sg = 0x09, + op_nr = 0x14, + op_ngr = 0xb980, + op_la = 0x41, + op1_lay = 0xe3, op2_lay = 0x71, + op1_larl = 0xc0, op2_larl = 0x00, + op_basr = 0x0d, + op_bas = 0x4d, + op_bcr = 0x07, + op_bc = 0x0d, + op1_bras = 0xa7, op2_bras = 0x05, + op1_brasl= 0xc0, op2_brasl= 0x05, + op1_brc = 0xa7, op2_brc = 0x04, + op1_brcl = 0xc0, op2_brcl = 0x04, }; +/* Read a single instruction from address AT. */ + +#define S390_MAX_INSTR_SIZE 6 +static int +s390_readinstruction (bfd_byte instr[], CORE_ADDR at) +{ + static int s390_instrlen[] = { 2, 4, 4, 6 }; + int instrlen; + + if (read_memory_nobpt (at, &instr[0], 2)) + return -1; + instrlen = s390_instrlen[instr[0] >> 6]; + if (instrlen > 2) + { + if (read_memory_nobpt (at + 2, &instr[2], instrlen - 2)) + return -1; + } + return instrlen; +} + + /* The functions below are for recognizing and decoding S/390 instructions of various formats. Each of them checks whether INSN is an instruction of the given format, with the specified opcodes. @@ -1051,17 +1028,18 @@ is_rs (bfd_byte *insn, int op, static int -is_rse (bfd_byte *insn, int op1, int op2, +is_rsy (bfd_byte *insn, int op1, int op2, unsigned int *r1, unsigned int *r3, unsigned int *d2, unsigned int *b2) { if (insn[0] == op1 - /* Yes, insn[5]. insn[4] is unused. */ && insn[5] == op2) { *r1 = (insn[1] >> 4) & 0xf; *r3 = insn[1] & 0xf; *b2 = (insn[2] >> 4) & 0xf; - *d2 = ((insn[2] & 0xf) << 8) | insn[3]; + /* The 'long displacement' is a 20-bit signed integer. */ + *d2 = ((((insn[2] & 0xf) << 8) | insn[3] | (insn[4] << 12)) + ^ 0x80000) - 0x80000; return 1; } else @@ -1087,17 +1065,18 @@ is_rx (bfd_byte *insn, int op, static int -is_rxe (bfd_byte *insn, int op1, int op2, +is_rxy (bfd_byte *insn, int op1, int op2, unsigned int *r1, unsigned int *d2, unsigned int *x2, unsigned int *b2) { if (insn[0] == op1 - /* Yes, insn[5]. insn[4] is unused. */ && insn[5] == op2) { *r1 = (insn[1] >> 4) & 0xf; *x2 = insn[1] & 0xf; *b2 = (insn[2] >> 4) & 0xf; - *d2 = ((insn[2] & 0xf) << 8) | insn[3]; + /* The 'long displacement' is a 20-bit signed integer. */ + *d2 = ((((insn[2] & 0xf) << 8) | insn[3] | (insn[4] << 12)) + ^ 0x80000) - 0x80000; return 1; } else @@ -1109,7 +1088,7 @@ is_rxe (bfd_byte *insn, int op1, int op2, L R1, D2(X2, B2) - Here, X2 and B2 are registers, and D2 is an unsigned 12-bit + Here, X2 and B2 are registers, and D2 is a signed 20-bit constant; the effective address is the sum of all three. If either X2 or B2 are zero, then it doesn't contribute to the sum --- this means that r0 can't be used as either X2 or B2. @@ -1119,7 +1098,7 @@ is_rxe (bfd_byte *insn, int op1, int op2, static void compute_x_addr (struct prologue_value *addr, struct prologue_value *gpr, - unsigned int d2, unsigned int x2, unsigned int b2) + int d2, unsigned int x2, unsigned int b2) { /* We can't just add stuff directly in addr; it might alias some of the registers we need to read. */ @@ -1142,27 +1121,41 @@ compute_x_addr (struct prologue_value *addr, #define S390_NUM_GPRS 16 #define S390_NUM_FPRS 16 +struct s390_prologue_data { + + /* The size of a GPR or FPR. */ + int gpr_size; + int fpr_size; + + /* The general-purpose registers. */ + struct prologue_value gpr[S390_NUM_GPRS]; + + /* The floating-point registers. */ + struct prologue_value fpr[S390_NUM_FPRS]; + + /* The register spill stack slots in the caller's frame --- + general-purpose registers r2 through r15, and floating-point + registers. spill[i] is where gpr i+2 gets spilled; + spill[(14, 15, 16, 17)] is where (f0, f2, f4, f6) get spilled. */ + struct prologue_value spill[S390_NUM_SPILL_SLOTS]; + + /* The value of the back chain slot. This is only valid if the stack + pointer is known to be less than its original value --- that is, + if we have indeed allocated space on the stack. */ + struct prologue_value back_chain; +}; + /* If the SIZE bytes at ADDR are a stack slot we're actually tracking, return pv_definite_yes and set *STACK to point to the slot. If we're sure that they are not any of our stack slots, then return pv_definite_no. Otherwise, return pv_maybe. - - GPR is an array indexed by GPR number giving the current values - of the general-purpose registers. - - SPILL is an array tracking the spill area of the caller's frame; - SPILL[i] is the i'th spill slot. The spill slots are designated - for r2 -- r15, and then f0, f2, f4, and f6. - - BACK_CHAIN is the value of the back chain slot; it's only valid - when the current frame actually has some space for a back chain - slot --- that is, when the current value of the stack pointer - (according to GPR) is at least S390_STACK_FRAME_OVERHEAD bytes - less than its original value. */ + + DATA describes our current state (registers and stack slots). */ static enum pv_boolean s390_on_stack (struct prologue_value *addr, CORE_ADDR size, - struct prologue_value *gpr, - struct prologue_value *spill, - struct prologue_value *back_chain, + struct s390_prologue_data *data, struct prologue_value **stack) { struct prologue_value gpr_spill_addr; @@ -1172,9 +1165,9 @@ s390_on_stack (struct prologue_value *addr, enum pv_boolean b; /* Construct the addresses of the spill arrays and the back chain. */ - pv_set_to_register (&gpr_spill_addr, S390_SP_REGNUM, 2 * S390_GPR_SIZE); - pv_set_to_register (&fpr_spill_addr, S390_SP_REGNUM, 16 * S390_GPR_SIZE); - back_chain_addr = gpr[S390_SP_REGNUM - S390_R0_REGNUM]; + pv_set_to_register (&gpr_spill_addr, S390_SP_REGNUM, 2 * data->gpr_size); + pv_set_to_register (&fpr_spill_addr, S390_SP_REGNUM, 16 * data->gpr_size); + back_chain_addr = data->gpr[S390_SP_REGNUM - S390_R0_REGNUM]; /* We have to check for GPR and FPR references using two separate calls to pv_is_array_ref, since the GPR and FPR spill slots are @@ -1182,20 +1175,20 @@ s390_on_stack (struct prologue_value *addr, isn't really an array.) */ /* Was it a reference to the GPR spill array? */ - b = pv_is_array_ref (addr, size, &gpr_spill_addr, 14, S390_GPR_SIZE, &i); + b = pv_is_array_ref (addr, size, &gpr_spill_addr, 14, data->gpr_size, &i); if (b == pv_definite_yes) { - *stack = &spill[i]; + *stack = &data->spill[i]; return pv_definite_yes; } if (b == pv_maybe) return pv_maybe; /* Was it a reference to the FPR spill array? */ - b = pv_is_array_ref (addr, size, &fpr_spill_addr, 4, S390_FPR_SIZE, &i); + b = pv_is_array_ref (addr, size, &fpr_spill_addr, 4, data->fpr_size, &i); if (b == pv_definite_yes) { - *stack = &spill[14 + i]; + *stack = &data->spill[14 + i]; return pv_definite_yes; } if (b == pv_maybe) @@ -1204,10 +1197,10 @@ s390_on_stack (struct prologue_value *addr, /* Was it a reference to the back chain? This isn't quite right. We ought to check whether we have actually allocated any new frame at all. */ - b = pv_is_array_ref (addr, size, &back_chain_addr, 1, S390_GPR_SIZE, &i); + b = pv_is_array_ref (addr, size, &back_chain_addr, 1, data->gpr_size, &i); if (b == pv_definite_yes) { - *stack = back_chain; + *stack = &data->back_chain; return pv_definite_yes; } if (b == pv_maybe) @@ -1218,76 +1211,90 @@ s390_on_stack (struct prologue_value *addr, } -/* Do a SIZE-byte store of VALUE to ADDR. GPR, SPILL, and BACK_CHAIN, - and the return value are as described for s390_on_stack, above. - Note that, when this returns pv_maybe, we have to assume that all - of our memory now contains unknown values. */ -static enum pv_boolean +/* Do a SIZE-byte store of VALUE to ADDR. */ +static void s390_store (struct prologue_value *addr, CORE_ADDR size, struct prologue_value *value, - struct prologue_value *gpr, - struct prologue_value *spill, - struct prologue_value *back_chain) + struct s390_prologue_data *data) { struct prologue_value *stack; - enum pv_boolean on_stack - = s390_on_stack (addr, size, gpr, spill, back_chain, &stack); - if (on_stack == pv_definite_yes) - *stack = *value; + /* We can do it if it's definitely a reference to something on the stack. */ + if (s390_on_stack (addr, size, data, &stack) == pv_definite_yes) + { + *stack = *value; + return; + } - return on_stack; + /* Note: If s390_on_stack returns pv_maybe, you might think we should + forget our cached values, as any of those might have been hit. + + However, we make the assumption that --since the fields we track + are save areas private to compiler, and never directly exposed to + the user-- every access to our data is explicit. Hence, every + memory access we cannot follow can't hit our data. */ } - -/* The current frame looks like a signal delivery frame: the first - instruction is an 'svc' opcode. If the next frame is a signal - handler's frame, set FI's saved register map to point into the - signal context structure. */ +/* Do a SIZE-byte load from ADDR into VALUE. */ static void -s390_get_signal_frame_info (struct frame_info *fi) +s390_load (struct prologue_value *addr, + CORE_ADDR size, + struct prologue_value *value, + struct s390_prologue_data *data) { - struct frame_info *next_frame = get_next_frame (fi); + struct prologue_value *stack; - if (next_frame - && get_frame_extra_info (next_frame) - && get_frame_extra_info (next_frame)->sigcontext) + /* If it's a load from an in-line constant pool, then we can + simulate that, under the assumption that the code isn't + going to change between the time the processor actually + executed it creating the current frame, and the time when + we're analyzing the code to unwind past that frame. */ + if (addr->kind == pv_constant) { - /* We're definitely backtracing from a signal handler. */ - CORE_ADDR *saved_regs = deprecated_get_frame_saved_regs (fi); - CORE_ADDR save_reg_addr = (get_frame_extra_info (next_frame)->sigcontext - + DEPRECATED_REGISTER_BYTE (S390_R0_REGNUM)); - int reg; - - for (reg = 0; reg < S390_NUM_GPRS; reg++) - { - saved_regs[S390_R0_REGNUM + reg] = save_reg_addr; - save_reg_addr += S390_GPR_SIZE; - } + struct section_table *secp; + secp = target_section_by_addr (¤t_target, addr->k); + if (secp != NULL + && (bfd_get_section_flags (secp->bfd, secp->the_bfd_section) + & SEC_READONLY)) + { + pv_set_to_constant (value, read_memory_integer (addr->k, size)); + return; + } + } - save_reg_addr = (get_frame_extra_info (next_frame)->sigcontext - + (GDB_TARGET_IS_ESAME ? S390X_SIGREGS_FP0_OFFSET : - S390_SIGREGS_FP0_OFFSET)); - for (reg = 0; reg < S390_NUM_FPRS; reg++) - { - saved_regs[S390_F0_REGNUM + reg] = save_reg_addr; - save_reg_addr += S390_FPR_SIZE; - } + /* If it's definitely a reference to something on the stack, + we can do that. */ + if (s390_on_stack (addr, size, data, &stack) == pv_definite_yes) + { + *value = *stack; + return; } -} + /* Otherwise, we don't know the value. */ + pv_set_to_unknown (value); +} + -static int -s390_get_frame_info (CORE_ADDR start_pc, - struct frame_extra_info *fextra_info, - struct frame_info *fi, - int init_extra_info) +/* Analyze the prologue of the function starting at START_PC, + continuing at most until CURRENT_PC. Initialize DATA to + hold all information we find out about the state of the registers + and stack slots. Return the address of the instruction after + the last one that changed the SP, FP, or back chain; or zero + on error. */ +static CORE_ADDR +s390_analyze_prologue (struct gdbarch *gdbarch, + CORE_ADDR start_pc, + CORE_ADDR current_pc, + struct s390_prologue_data *data) { + int word_size = gdbarch_ptr_bit (gdbarch) / 8; + /* Our return value: - zero if we were able to read all the instructions we wanted, or - -1 if we got an error trying to read memory. */ - int result = 0; + The address of the instruction after the last one that changed + the SP, FP, or back chain; zero if we got an error trying to + read memory. */ + CORE_ADDR result = start_pc; /* The current PC for our abstract interpretation. */ CORE_ADDR pc; @@ -1295,55 +1302,38 @@ s390_get_frame_info (CORE_ADDR start_pc, /* The address of the next instruction after that. */ CORE_ADDR next_pc; - /* The general-purpose registers. */ - struct prologue_value gpr[S390_NUM_GPRS]; - - /* The floating-point registers. */ - struct prologue_value fpr[S390_NUM_FPRS]; - - /* The register spill stack slots in the caller's frame --- - general-purpose registers r2 through r15, and floating-point - registers. spill[i] is where gpr i+2 gets spilled; - spill[(14, 15, 16, 17)] is where (f0, f2, f4, f6) get spilled. */ - struct prologue_value spill[S390_NUM_SPILL_SLOTS]; - - /* The value of the back chain slot. This is only valid if the stack - pointer is known to be less than its original value --- that is, - if we have indeed allocated space on the stack. */ - struct prologue_value back_chain; - - /* The address of the instruction after the last one that changed - the SP, FP, or back chain. */ - CORE_ADDR after_last_frame_setup_insn = start_pc; - /* Set up everything's initial value. */ { int i; + /* For the purpose of prologue tracking, we consider the GPR size to + be equal to the ABI word size, even if it is actually larger + (i.e. when running a 32-bit binary under a 64-bit kernel). */ + data->gpr_size = word_size; + data->fpr_size = 8; + for (i = 0; i < S390_NUM_GPRS; i++) - pv_set_to_register (&gpr[i], S390_R0_REGNUM + i, 0); + pv_set_to_register (&data->gpr[i], S390_R0_REGNUM + i, 0); for (i = 0; i < S390_NUM_FPRS; i++) - pv_set_to_register (&fpr[i], S390_F0_REGNUM + i, 0); + pv_set_to_register (&data->fpr[i], S390_F0_REGNUM + i, 0); for (i = 0; i < S390_NUM_SPILL_SLOTS; i++) - pv_set_to_unknown (&spill[i]); + pv_set_to_unknown (&data->spill[i]); - pv_set_to_unknown (&back_chain); + pv_set_to_unknown (&data->back_chain); } - /* Start interpreting instructions, until we hit something we don't - know how to interpret. (Ideally, we should stop at the frame's - real current PC, but at the moment, our callers don't give us - that info.) */ - for (pc = start_pc; ; pc = next_pc) + /* Start interpreting instructions, until we hit the frame's + current PC or the first branch instruction. */ + for (pc = start_pc; pc > 0 && pc < current_pc; pc = next_pc) { bfd_byte insn[S390_MAX_INSTR_SIZE]; int insn_len = s390_readinstruction (insn, pc); /* Fields for various kinds of instructions. */ - unsigned int b2, r1, r2, d2, x2, r3; - int i2; + unsigned int b2, r1, r2, x2, r3; + int i2, d2; /* The values of SP, FP, and back chain before this instruction, for detecting instructions that change them. */ @@ -1352,182 +1342,94 @@ s390_get_frame_info (CORE_ADDR start_pc, /* If we got an error trying to read the instruction, report it. */ if (insn_len < 0) { - result = -1; + result = 0; break; } next_pc = pc + insn_len; - pre_insn_sp = gpr[S390_SP_REGNUM - S390_R0_REGNUM]; - pre_insn_fp = gpr[S390_FRAME_REGNUM - S390_R0_REGNUM]; - pre_insn_back_chain = back_chain; - - /* A special case, first --- only recognized as the very first - instruction of the function, for signal delivery frames: - SVC i --- system call */ - if (pc == start_pc - && is_rr (insn, op_svc, &r1, &r2)) - { - if (fi) - s390_get_signal_frame_info (fi); - break; - } - - /* AHI r1, i2 --- add halfword immediate */ - else if (is_ri (insn, op1_ahi, op2_ahi, &r1, &i2)) - pv_add_constant (&gpr[r1], i2); + pre_insn_sp = data->gpr[S390_SP_REGNUM - S390_R0_REGNUM]; + pre_insn_fp = data->gpr[S390_FRAME_REGNUM - S390_R0_REGNUM]; + pre_insn_back_chain = data->back_chain; + /* LHI r1, i2 --- load halfword immediate */ + if (word_size == 4 + && is_ri (insn, op1_lhi, op2_lhi, &r1, &i2)) + pv_set_to_constant (&data->gpr[r1], i2); - /* AGHI r1, i2 --- add halfword immediate (64-bit version) */ - else if (GDB_TARGET_IS_ESAME - && is_ri (insn, op1_aghi, op2_aghi, &r1, &i2)) - pv_add_constant (&gpr[r1], i2); + /* LGHI r1, i2 --- load halfword immediate (64-bit version) */ + else if (word_size == 8 + && is_ri (insn, op1_lghi, op2_lghi, &r1, &i2)) + pv_set_to_constant (&data->gpr[r1], i2); - /* AR r1, r2 -- add register */ - else if (is_rr (insn, op_ar, &r1, &r2)) - pv_add (&gpr[r1], &gpr[r1], &gpr[r2]); + /* LR r1, r2 --- load from register */ + else if (word_size == 4 + && is_rr (insn, op_lr, &r1, &r2)) + data->gpr[r1] = data->gpr[r2]; - /* BASR r1, 0 --- branch and save - Since r2 is zero, this saves the PC in r1, but doesn't branch. */ - else if (is_rr (insn, op_basr, &r1, &r2) - && r2 == 0) - pv_set_to_constant (&gpr[r1], next_pc); + /* LGR r1, r2 --- load from register (64-bit version) */ + else if (word_size == 8 + && is_rre (insn, op_lgr, &r1, &r2)) + data->gpr[r1] = data->gpr[r2]; - /* BRAS r1, i2 --- branch relative and save */ - else if (is_ri (insn, op1_bras, op2_bras, &r1, &i2)) + /* L r1, d2(x2, b2) --- load */ + else if (word_size == 4 + && is_rx (insn, op_l, &r1, &d2, &x2, &b2)) { - pv_set_to_constant (&gpr[r1], next_pc); - next_pc = pc + i2 * 2; + struct prologue_value addr; - /* We'd better not interpret any backward branches. We'll - never terminate. */ - if (next_pc <= pc) - break; + compute_x_addr (&addr, data->gpr, d2, x2, b2); + s390_load (&addr, 4, &data->gpr[r1], data); } - /* L r1, d2(x2, b2) --- load */ - else if (is_rx (insn, op_l, &r1, &d2, &x2, &b2)) + /* LY r1, d2(x2, b2) --- load (long-displacement version) */ + else if (word_size == 4 + && is_rxy (insn, op1_ly, op2_ly, &r1, &d2, &x2, &b2)) { struct prologue_value addr; - struct prologue_value *stack; - - compute_x_addr (&addr, gpr, d2, x2, b2); - - /* If it's a load from an in-line constant pool, then we can - simulate that, under the assumption that the code isn't - going to change between the time the processor actually - executed it creating the current frame, and the time when - we're analyzing the code to unwind past that frame. */ - if (addr.kind == pv_constant - && start_pc <= addr.k - && addr.k < next_pc) - pv_set_to_constant (&gpr[r1], - read_memory_integer (addr.k, 4)); - - /* If it's definitely a reference to something on the stack, - we can do that. */ - else if (s390_on_stack (&addr, 4, gpr, spill, &back_chain, &stack) - == pv_definite_yes) - gpr[r1] = *stack; - - /* Otherwise, we don't know the value. */ - else - pv_set_to_unknown (&gpr[r1]); - } - - /* LA r1, d2(x2, b2) --- load address */ - else if (is_rx (insn, op_la, &r1, &d2, &x2, &b2)) - compute_x_addr (&gpr[r1], gpr, d2, x2, b2); - - /* LARL r1, i2 --- load address relative long */ - else if (GDB_TARGET_IS_ESAME - && is_ril (insn, op1_larl, op2_larl, &r1, &i2)) - pv_set_to_constant (&gpr[r1], pc + i2 * 2); - - /* LGR r1, r2 --- load from register */ - else if (GDB_TARGET_IS_ESAME - && is_rre (insn, op_lgr, &r1, &r2)) - gpr[r1] = gpr[r2]; - /* LHI r1, i2 --- load halfword immediate */ - else if (is_ri (insn, op1_lhi, op2_lhi, &r1, &i2)) - pv_set_to_constant (&gpr[r1], i2); - - /* LGHI r1, i2 --- load halfword immediate --- 64-bit version */ - else if (is_ri (insn, op1_lghi, op2_lghi, &r1, &i2)) - pv_set_to_constant (&gpr[r1], i2); - - /* LR r1, r2 --- load from register */ - else if (is_rr (insn, op_lr, &r1, &r2)) - gpr[r1] = gpr[r2]; + compute_x_addr (&addr, data->gpr, d2, x2, b2); + s390_load (&addr, 4, &data->gpr[r1], data); + } - /* NGR r1, r2 --- logical and --- 64-bit version */ - else if (GDB_TARGET_IS_ESAME - && is_rre (insn, op_ngr, &r1, &r2)) - pv_logical_and (&gpr[r1], &gpr[r1], &gpr[r2]); + /* LG r1, d2(x2, b2) --- load (64-bit version) */ + else if (word_size == 8 + && is_rxy (insn, op1_lg, op2_lg, &r1, &d2, &x2, &b2)) + { + struct prologue_value addr; - /* NR r1, r2 --- logical and */ - else if (is_rr (insn, op_nr, &r1, &r2)) - pv_logical_and (&gpr[r1], &gpr[r1], &gpr[r2]); + compute_x_addr (&addr, data->gpr, d2, x2, b2); + s390_load (&addr, 8, &data->gpr[r1], data); + } - /* NGR r1, r2 --- logical and --- 64-bit version */ - else if (GDB_TARGET_IS_ESAME - && is_rre (insn, op_ngr, &r1, &r2)) - pv_logical_and (&gpr[r1], &gpr[r1], &gpr[r2]); + /* ST r1, d2(x2, b2) --- store */ + else if (word_size == 4 + && is_rx (insn, op_st, &r1, &d2, &x2, &b2)) + { + struct prologue_value addr; - /* NR r1, r2 --- logical and */ - else if (is_rr (insn, op_nr, &r1, &r2)) - pv_logical_and (&gpr[r1], &gpr[r1], &gpr[r2]); + compute_x_addr (&addr, data->gpr, d2, x2, b2); + s390_store (&addr, 4, &data->gpr[r1], data); + } - /* S r1, d2(x2, b2) --- subtract from memory */ - else if (is_rx (insn, op_s, &r1, &d2, &x2, &b2)) + /* STY r1, d2(x2, b2) --- store (long-displacement version) */ + else if (word_size == 4 + && is_rxy (insn, op1_sty, op2_sty, &r1, &d2, &x2, &b2)) { struct prologue_value addr; - struct prologue_value value; - struct prologue_value *stack; - - compute_x_addr (&addr, gpr, d2, x2, b2); - - /* If it's a load from an in-line constant pool, then we can - simulate that, under the assumption that the code isn't - going to change between the time the processor actually - executed it and the time when we're analyzing it. */ - if (addr.kind == pv_constant - && start_pc <= addr.k - && addr.k < pc) - pv_set_to_constant (&value, read_memory_integer (addr.k, 4)); - - /* If it's definitely a reference to something on the stack, - we could do that. */ - else if (s390_on_stack (&addr, 4, gpr, spill, &back_chain, &stack) - == pv_definite_yes) - value = *stack; - - /* Otherwise, we don't know the value. */ - else - pv_set_to_unknown (&value); - - pv_subtract (&gpr[r1], &gpr[r1], &value); + + compute_x_addr (&addr, data->gpr, d2, x2, b2); + s390_store (&addr, 4, &data->gpr[r1], data); } - /* ST r1, d2(x2, b2) --- store */ - else if (is_rx (insn, op_st, &r1, &d2, &x2, &b2)) + /* STG r1, d2(x2, b2) --- store (64-bit version) */ + else if (word_size == 8 + && is_rxy (insn, op1_stg, op2_stg, &r1, &d2, &x2, &b2)) { struct prologue_value addr; - compute_x_addr (&addr, gpr, d2, x2, b2); - - /* The below really should be '4', not 'S390_GPR_SIZE'; this - instruction always stores 32 bits, regardless of the full - size of the GPR. */ - if (s390_store (&addr, 4, &gpr[r1], gpr, spill, &back_chain) - == pv_maybe) - /* If we can't be sure that it's *not* a store to - something we're tracing, then we would have to mark all - our memory as unknown --- after all, it *could* be a - store to any of them --- so we might as well just stop - interpreting. */ - break; + compute_x_addr (&addr, data->gpr, d2, x2, b2); + s390_store (&addr, 8, &data->gpr[r1], data); } /* STD r1, d2(x2,b2) --- store floating-point register */ @@ -1535,41 +1437,30 @@ s390_get_frame_info (CORE_ADDR start_pc, { struct prologue_value addr; - compute_x_addr (&addr, gpr, d2, x2, b2); - - if (s390_store (&addr, 8, &fpr[r1], gpr, spill, &back_chain) - == pv_maybe) - /* If we can't be sure that it's *not* a store to - something we're tracing, then we would have to mark all - our memory as unknown --- after all, it *could* be a - store to any of them --- so we might as well just stop - interpreting. */ - break; + compute_x_addr (&addr, data->gpr, d2, x2, b2); + s390_store (&addr, 8, &data->fpr[r1], data); } - /* STG r1, d2(x2, b2) --- 64-bit store */ - else if (GDB_TARGET_IS_ESAME - && is_rxe (insn, op1_stg, op2_stg, &r1, &d2, &x2, &b2)) + /* STM r1, r3, d2(b2) --- store multiple */ + else if (word_size == 4 + && is_rs (insn, op_stm, &r1, &r3, &d2, &b2)) { + int regnum; + int offset; struct prologue_value addr; - compute_x_addr (&addr, gpr, d2, x2, b2); - - /* The below really should be '8', not 'S390_GPR_SIZE'; this - instruction always stores 64 bits, regardless of the full - size of the GPR. */ - if (s390_store (&addr, 8, &gpr[r1], gpr, spill, &back_chain) - == pv_maybe) - /* If we can't be sure that it's *not* a store to - something we're tracing, then we would have to mark all - our memory as unknown --- after all, it *could* be a - store to any of them --- so we might as well just stop - interpreting. */ - break; + for (regnum = r1, offset = 0; + regnum <= r3; + regnum++, offset += 4) + { + compute_x_addr (&addr, data->gpr, d2 + offset, 0, b2); + s390_store (&addr, 4, &data->gpr[regnum], data); + } } - /* STM r1, r3, d2(b2) --- store multiple */ - else if (is_rs (insn, op_stm, &r1, &r3, &d2, &b2)) + /* STMY r1, r3, d2(b2) --- store multiple (long-displacement version) */ + else if (word_size == 4 + && is_rsy (insn, op1_stmy, op2_stmy, &r1, &r3, &d2, &b2)) { int regnum; int offset; @@ -1579,27 +1470,14 @@ s390_get_frame_info (CORE_ADDR start_pc, regnum <= r3; regnum++, offset += 4) { - compute_x_addr (&addr, gpr, d2 + offset, 0, b2); - - if (s390_store (&addr, 4, &gpr[regnum], gpr, spill, &back_chain) - == pv_maybe) - /* If we can't be sure that it's *not* a store to - something we're tracing, then we would have to mark all - our memory as unknown --- after all, it *could* be a - store to any of them --- so we might as well just stop - interpreting. */ - break; + compute_x_addr (&addr, data->gpr, d2 + offset, 0, b2); + s390_store (&addr, 4, &data->gpr[regnum], data); } - - /* If we left the loop early, we should stop interpreting - altogether. */ - if (regnum <= r3) - break; } - /* STMG r1, r3, d2(b2) --- store multiple, 64-bit */ - else if (GDB_TARGET_IS_ESAME - && is_rse (insn, op1_stmg, op2_stmg, &r1, &r3, &d2, &b2)) + /* STMG r1, r3, d2(b2) --- store multiple (64-bit version) */ + else if (word_size == 8 + && is_rsy (insn, op1_stmg, op2_stmg, &r1, &r3, &d2, &b2)) { int regnum; int offset; @@ -1609,31 +1487,177 @@ s390_get_frame_info (CORE_ADDR start_pc, regnum <= r3; regnum++, offset += 8) { - compute_x_addr (&addr, gpr, d2 + offset, 0, b2); - - if (s390_store (&addr, 8, &gpr[regnum], gpr, spill, &back_chain) - == pv_maybe) - /* If we can't be sure that it's *not* a store to - something we're tracing, then we would have to mark all - our memory as unknown --- after all, it *could* be a - store to any of them --- so we might as well just stop - interpreting. */ - break; + compute_x_addr (&addr, data->gpr, d2 + offset, 0, b2); + s390_store (&addr, 8, &data->gpr[regnum], data); } + } + + /* AHI r1, i2 --- add halfword immediate */ + else if (word_size == 4 + && is_ri (insn, op1_ahi, op2_ahi, &r1, &i2)) + pv_add_constant (&data->gpr[r1], i2); + + /* AGHI r1, i2 --- add halfword immediate (64-bit version) */ + else if (word_size == 8 + && is_ri (insn, op1_aghi, op2_aghi, &r1, &i2)) + pv_add_constant (&data->gpr[r1], i2); + + /* AR r1, r2 -- add register */ + else if (word_size == 4 + && is_rr (insn, op_ar, &r1, &r2)) + pv_add (&data->gpr[r1], &data->gpr[r1], &data->gpr[r2]); + + /* AGR r1, r2 -- add register (64-bit version) */ + else if (word_size == 8 + && is_rre (insn, op_agr, &r1, &r2)) + pv_add (&data->gpr[r1], &data->gpr[r1], &data->gpr[r2]); + + /* A r1, d2(x2, b2) -- add */ + else if (word_size == 4 + && is_rx (insn, op_a, &r1, &d2, &x2, &b2)) + { + struct prologue_value addr; + struct prologue_value value; + + compute_x_addr (&addr, data->gpr, d2, x2, b2); + s390_load (&addr, 4, &value, data); + + pv_add (&data->gpr[r1], &data->gpr[r1], &value); + } + + /* AY r1, d2(x2, b2) -- add (long-displacement version) */ + else if (word_size == 4 + && is_rxy (insn, op1_ay, op2_ay, &r1, &d2, &x2, &b2)) + { + struct prologue_value addr; + struct prologue_value value; + + compute_x_addr (&addr, data->gpr, d2, x2, b2); + s390_load (&addr, 4, &value, data); + + pv_add (&data->gpr[r1], &data->gpr[r1], &value); + } + + /* AG r1, d2(x2, b2) -- add (64-bit version) */ + else if (word_size == 8 + && is_rxy (insn, op1_ag, op2_ag, &r1, &d2, &x2, &b2)) + { + struct prologue_value addr; + struct prologue_value value; + + compute_x_addr (&addr, data->gpr, d2, x2, b2); + s390_load (&addr, 8, &value, data); + + pv_add (&data->gpr[r1], &data->gpr[r1], &value); + } + + /* SR r1, r2 -- subtract register */ + else if (word_size == 4 + && is_rr (insn, op_sr, &r1, &r2)) + pv_subtract (&data->gpr[r1], &data->gpr[r1], &data->gpr[r2]); + + /* SGR r1, r2 -- subtract register (64-bit version) */ + else if (word_size == 8 + && is_rre (insn, op_sgr, &r1, &r2)) + pv_subtract (&data->gpr[r1], &data->gpr[r1], &data->gpr[r2]); + + /* S r1, d2(x2, b2) -- subtract */ + else if (word_size == 4 + && is_rx (insn, op_s, &r1, &d2, &x2, &b2)) + { + struct prologue_value addr; + struct prologue_value value; + + compute_x_addr (&addr, data->gpr, d2, x2, b2); + s390_load (&addr, 4, &value, data); + + pv_subtract (&data->gpr[r1], &data->gpr[r1], &value); + } + + /* SY r1, d2(x2, b2) -- subtract (long-displacement version) */ + else if (word_size == 4 + && is_rxy (insn, op1_sy, op2_sy, &r1, &d2, &x2, &b2)) + { + struct prologue_value addr; + struct prologue_value value; + + compute_x_addr (&addr, data->gpr, d2, x2, b2); + s390_load (&addr, 4, &value, data); + + pv_subtract (&data->gpr[r1], &data->gpr[r1], &value); + } + + /* SG r1, d2(x2, b2) -- subtract (64-bit version) */ + else if (word_size == 8 + && is_rxy (insn, op1_sg, op2_sg, &r1, &d2, &x2, &b2)) + { + struct prologue_value addr; + struct prologue_value value; + + compute_x_addr (&addr, data->gpr, d2, x2, b2); + s390_load (&addr, 8, &value, data); + + pv_subtract (&data->gpr[r1], &data->gpr[r1], &value); + } + + /* NR r1, r2 --- logical and */ + else if (word_size == 4 + && is_rr (insn, op_nr, &r1, &r2)) + pv_logical_and (&data->gpr[r1], &data->gpr[r1], &data->gpr[r2]); + + /* NGR r1, r2 >--- logical and (64-bit version) */ + else if (word_size == 8 + && is_rre (insn, op_ngr, &r1, &r2)) + pv_logical_and (&data->gpr[r1], &data->gpr[r1], &data->gpr[r2]); + + /* LA r1, d2(x2, b2) --- load address */ + else if (is_rx (insn, op_la, &r1, &d2, &x2, &b2)) + compute_x_addr (&data->gpr[r1], data->gpr, d2, x2, b2); + + /* LAY r1, d2(x2, b2) --- load address (long-displacement version) */ + else if (is_rxy (insn, op1_lay, op2_lay, &r1, &d2, &x2, &b2)) + compute_x_addr (&data->gpr[r1], data->gpr, d2, x2, b2); + + /* LARL r1, i2 --- load address relative long */ + else if (is_ril (insn, op1_larl, op2_larl, &r1, &i2)) + pv_set_to_constant (&data->gpr[r1], pc + i2 * 2); + + /* BASR r1, 0 --- branch and save + Since r2 is zero, this saves the PC in r1, but doesn't branch. */ + else if (is_rr (insn, op_basr, &r1, &r2) + && r2 == 0) + pv_set_to_constant (&data->gpr[r1], next_pc); + + /* BRAS r1, i2 --- branch relative and save */ + else if (is_ri (insn, op1_bras, op2_bras, &r1, &i2)) + { + pv_set_to_constant (&data->gpr[r1], next_pc); + next_pc = pc + i2 * 2; - /* If we left the loop early, we should stop interpreting - altogether. */ - if (regnum <= r3) + /* We'd better not interpret any backward branches. We'll + never terminate. */ + if (next_pc <= pc) break; } + /* Terminate search when hitting any other branch instruction. */ + else if (is_rr (insn, op_basr, &r1, &r2) + || is_rx (insn, op_bas, &r1, &d2, &x2, &b2) + || is_rr (insn, op_bcr, &r1, &r2) + || is_rx (insn, op_bc, &r1, &d2, &x2, &b2) + || is_ri (insn, op1_brc, op2_brc, &r1, &i2) + || is_ril (insn, op1_brcl, op2_brcl, &r1, &i2) + || is_ril (insn, op1_brasl, op2_brasl, &r2, &i2)) + break; + else /* An instruction we don't know how to simulate. The only safe thing to do would be to set every value we're tracking - to 'unknown'. Instead, we'll be optimistic: we just stop - interpreting, and assume that the machine state we've got - now is good enough for unwinding the stack. */ - break; + to 'unknown'. Instead, we'll be optimistic: we assume that + we *can* interpret every instruction that the compiler uses + to manipulate any of the data we're interested in here -- + then we can just ignore anything else. */ + ; /* Record the address after the last instruction that changed the FP, SP, or backlink. Ignore instructions that changed @@ -1641,195 +1665,32 @@ s390_get_frame_info (CORE_ADDR start_pc, restore instructions. (The back chain is never restored, just popped.) */ { - struct prologue_value *sp = &gpr[S390_SP_REGNUM - S390_R0_REGNUM]; - struct prologue_value *fp = &gpr[S390_FRAME_REGNUM - S390_R0_REGNUM]; + struct prologue_value *sp = &data->gpr[S390_SP_REGNUM - S390_R0_REGNUM]; + struct prologue_value *fp = &data->gpr[S390_FRAME_REGNUM - S390_R0_REGNUM]; if ((! pv_is_identical (&pre_insn_sp, sp) && ! pv_is_register (sp, S390_SP_REGNUM, 0)) || (! pv_is_identical (&pre_insn_fp, fp) && ! pv_is_register (fp, S390_FRAME_REGNUM, 0)) - || ! pv_is_identical (&pre_insn_back_chain, &back_chain)) - after_last_frame_setup_insn = next_pc; + || ! pv_is_identical (&pre_insn_back_chain, &data->back_chain)) + result = next_pc; } } - /* Okay, now gpr[], fpr[], spill[], and back_chain reflect the state - of the machine as of the first instruction we couldn't interpret - (hopefully the first non-prologue instruction). */ - { - /* The size of the frame, or (CORE_ADDR) -1 if we couldn't figure - that out. */ - CORE_ADDR frame_size = -1; - - /* The value the SP had upon entry to the function, or - (CORE_ADDR) -1 if we can't figure that out. */ - CORE_ADDR original_sp = -1; - - /* Are we using S390_FRAME_REGNUM as a frame pointer register? */ - int using_frame_pointer = 0; - - /* If S390_FRAME_REGNUM is some constant offset from the SP, then - that strongly suggests that we're going to use that as our - frame pointer register, not the SP. */ - { - struct prologue_value *fp = &gpr[S390_FRAME_REGNUM - S390_R0_REGNUM]; - - if (fp->kind == pv_register - && fp->reg == S390_SP_REGNUM) - using_frame_pointer = 1; - } - - /* If we were given a frame_info structure, we may be able to use - the frame's base address to figure out the actual value of the - original SP. */ - if (fi && get_frame_base (fi)) - { - int frame_base_regno; - struct prologue_value *frame_base; - - /* The meaning of the frame base depends on whether the - function uses a frame pointer register other than the SP or - not (see s390_read_fp): - - If the function does use a frame pointer register other - than the SP, then the frame base is that register's - value. - - If the function doesn't use a frame pointer, then the - frame base is the SP itself. - We're duplicating some of the logic of s390_fp_regnum here, - but we don't want to call that, because it would just do - exactly the same analysis we've already done above. */ - if (using_frame_pointer) - frame_base_regno = S390_FRAME_REGNUM; - else - frame_base_regno = S390_SP_REGNUM; - - frame_base = &gpr[frame_base_regno - S390_R0_REGNUM]; - - /* We know the frame base address; if the value of whatever - register it came from is a constant offset from the - original SP, then we can reconstruct the original SP just - by subtracting off that constant. */ - if (frame_base->kind == pv_register - && frame_base->reg == S390_SP_REGNUM) - original_sp = get_frame_base (fi) - frame_base->k; - } - - /* If the analysis said that the current SP value is the original - value less some constant, then that constant is the frame size. */ - { - struct prologue_value *sp = &gpr[S390_SP_REGNUM - S390_R0_REGNUM]; - - if (sp->kind == pv_register - && sp->reg == S390_SP_REGNUM) - frame_size = -sp->k; - } - - /* If we knew other registers' current values, we could check if - the analysis said any of those were related to the original SP - value, too. But for now, we'll just punt. */ - - /* If the caller passed in an 'extra info' structure, fill in the - parts we can. */ - if (fextra_info) - { - if (init_extra_info || ! fextra_info->initialised) - { - s390_memset_extra_info (fextra_info); - fextra_info->function_start = start_pc; - fextra_info->initialised = 1; - } - - if (frame_size != -1) - { - fextra_info->stack_bought_valid = 1; - fextra_info->stack_bought = frame_size; - } - - /* Assume everything was okay, and indicate otherwise when we - find something amiss. */ - fextra_info->good_prologue = 1; - - if (using_frame_pointer) - /* Actually, nobody cares about the exact PC, so any - non-zero value will do here. */ - fextra_info->frame_pointer_saved_pc = 1; - - /* If we weren't able to find the size of the frame, or find - the original sp based on actual current register values, - then we're not going to be able to unwind this frame. - - (If we're just doing prologue analysis to set a breakpoint, - then frame_size might be known, but original_sp unknown; if - we're analyzing a real frame which uses alloca, then - original_sp might be known (from the frame pointer - register), but the frame size might be unknown.) */ - if (original_sp == -1 && frame_size == -1) - fextra_info->good_prologue = 0; - - if (fextra_info->good_prologue) - fextra_info->skip_prologue_function_start - = after_last_frame_setup_insn; - else - /* If the prologue was too complex for us to make sense of, - then perhaps it's better to just not skip anything at - all. */ - fextra_info->skip_prologue_function_start = start_pc; - } - - /* Indicate where registers were saved on the stack, if: - - the caller seems to want to know, - - the caller provided an actual SP, and - - the analysis gave us enough information to actually figure it - out. */ - if (fi - && deprecated_get_frame_saved_regs (fi) - && original_sp != -1) - { - int slot_num; - CORE_ADDR slot_addr; - CORE_ADDR *saved_regs = deprecated_get_frame_saved_regs (fi); - - /* Scan the spill array; if a spill slot says it holds the - original value of some register, then record that slot's - address as the place that register was saved. - - Just for kicks, note that, even if registers aren't saved - in their officially-sanctioned slots, this will still work - --- we know what really got put where. */ - - /* First, the slots for r2 -- r15. */ - for (slot_num = 0, slot_addr = original_sp + 2 * S390_GPR_SIZE; - slot_num < 14; - slot_num++, slot_addr += S390_GPR_SIZE) - { - struct prologue_value *slot = &spill[slot_num]; - - if (slot->kind == pv_register - && slot->k == 0) - saved_regs[slot->reg] = slot_addr; - } - - /* Then, the slots for f0, f2, f4, and f6. They're a - different size. */ - for (slot_num = 14, slot_addr = original_sp + 16 * S390_GPR_SIZE; - slot_num < S390_NUM_SPILL_SLOTS; - slot_num++, slot_addr += S390_FPR_SIZE) - { - struct prologue_value *slot = &spill[slot_num]; - - if (slot->kind == pv_register - && slot->k == 0) - saved_regs[slot->reg] = slot_addr; - } - - /* The stack pointer's element of saved_regs[] is special. */ - saved_regs[S390_SP_REGNUM] = original_sp; - } - } - return result; } +/* Advance PC across any function entry prologue instructions to reach + some "real" code. */ +static CORE_ADDR +s390_skip_prologue (CORE_ADDR pc) +{ + struct s390_prologue_data data; + CORE_ADDR skip_pc; + skip_pc = s390_analyze_prologue (current_gdbarch, pc, (CORE_ADDR)-1, &data); + return skip_pc ? skip_pc : pc; +} + /* Return true if we are in the functin's epilogue, i.e. after the instruction that destroyed the function's stack frame. */ static int @@ -1866,458 +1727,573 @@ s390_in_function_epilogue_p (struct gdbarch *gdbarch, CORE_ADDR pc) && r3 == S390_SP_REGNUM - S390_R0_REGNUM) return 1; + if (word_size == 4 + && !read_memory_nobpt (pc - 6, insn, 6) + && is_rsy (insn, op1_lmy, op2_lmy, &r1, &r3, &d2, &b2) + && r3 == S390_SP_REGNUM - S390_R0_REGNUM) + return 1; + if (word_size == 8 && !read_memory_nobpt (pc - 6, insn, 6) - && is_rse (insn, op1_lmg, op2_lmg, &r1, &r3, &d2, &b2) + && is_rsy (insn, op1_lmg, op2_lmg, &r1, &r3, &d2, &b2) && r3 == S390_SP_REGNUM - S390_R0_REGNUM) return 1; return 0; } + +/* Normal stack frames. */ + +struct s390_unwind_cache { + + CORE_ADDR func; + CORE_ADDR frame_base; + CORE_ADDR local_base; + + struct trad_frame_saved_reg *saved_regs; +}; + static int -s390_check_function_end (CORE_ADDR pc) +s390_prologue_frame_unwind_cache (struct frame_info *next_frame, + struct s390_unwind_cache *info) { - bfd_byte instr[S390_MAX_INSTR_SIZE]; - int regidx, instrlen; + struct gdbarch *gdbarch = get_frame_arch (next_frame); + int word_size = gdbarch_ptr_bit (gdbarch) / 8; + struct s390_prologue_data data; + struct prologue_value *fp = &data.gpr[S390_FRAME_REGNUM - S390_R0_REGNUM]; + struct prologue_value *sp = &data.gpr[S390_SP_REGNUM - S390_R0_REGNUM]; + int slot_num; + CORE_ADDR slot_addr; + CORE_ADDR func; + CORE_ADDR result; + ULONGEST reg; + CORE_ADDR prev_sp; + int frame_pointer; + int size; + + /* Try to find the function start address. If we can't find it, we don't + bother searching for it -- with modern compilers this would be mostly + pointless anyway. Trust that we'll either have valid DWARF-2 CFI data + or else a valid backchain ... */ + func = frame_func_unwind (next_frame); + if (!func) + return 0; - instrlen = s390_readinstruction (instr, pc); - if (instrlen < 0) - return -1; - /* check for BR */ - if (instrlen != 2 || instr[0] != 07 || (instr[1] >> 4) != 0xf) + /* Try to analyze the prologue. */ + result = s390_analyze_prologue (gdbarch, func, + frame_pc_unwind (next_frame), &data); + if (!result) return 0; - regidx = instr[1] & 0xf; - /* Check for LMG or LG */ - instrlen = - s390_readinstruction (instr, pc - (GDB_TARGET_IS_ESAME ? 6 : 4)); - if (instrlen < 0) - return -1; - if (GDB_TARGET_IS_ESAME) - { - if (instrlen != 6 || instr[0] != 0xeb || instr[5] != 0x4) - return 0; - } - else if (instrlen != 4 || instr[0] != 0x98) - { - return 0; - } - if ((instr[2] >> 4) != 0xf) + /* If this was successful, we should have found the instruction that + sets the stack pointer register to the previous value of the stack + pointer minus the frame size. */ + if (sp->kind != pv_register || sp->reg != S390_SP_REGNUM) return 0; - if (regidx == 14) - return 1; - instrlen = s390_readinstruction (instr, pc - (GDB_TARGET_IS_ESAME ? 12 : 8)); - if (instrlen < 0) - return -1; - if (GDB_TARGET_IS_ESAME) - { - /* Check for LG */ - if (instrlen != 6 || instr[0] != 0xe3 || instr[5] != 0x4) - return 0; - } - else + + /* A frame size of zero at this point can mean either a real + frameless function, or else a failure to find the prologue. + Perform some sanity checks to verify we really have a + frameless function. */ + if (sp->k == 0) { - /* Check for L */ - if (instrlen != 4 || instr[0] != 0x58) + /* If the next frame is a NORMAL_FRAME, this frame *cannot* have frame + size zero. This is only possible if the next frame is a sentinel + frame, a dummy frame, or a signal trampoline frame. */ + if (get_frame_type (next_frame) == NORMAL_FRAME + /* For some reason, sentinel frames are NORMAL_FRAMEs + -- but they have negative frame level. */ + && frame_relative_level (next_frame) >= 0) return 0; - } - if (instr[2] >> 4 != 0xf) - return 0; - if (instr[1] >> 4 != regidx) - return 0; - return 1; -} - -static CORE_ADDR -s390_sniff_pc_function_start (CORE_ADDR pc, struct frame_info *fi) -{ - CORE_ADDR function_start, test_function_start; - int loop_cnt, err, function_end; - struct frame_extra_info fextra_info; - function_start = get_pc_function_start (pc); - if (function_start == 0) - { - test_function_start = pc; - if (test_function_start & 1) - return 0; /* This has to be bogus */ - loop_cnt = 0; - do + /* If we really have a frameless function, %r14 must be valid + -- in particular, it must point to a different function. */ + reg = frame_unwind_register_unsigned (next_frame, S390_RETADDR_REGNUM); + reg = gdbarch_addr_bits_remove (gdbarch, reg) - 1; + if (get_pc_function_start (reg) == func) { + /* However, there is one case where it *is* valid for %r14 + to point to the same function -- if this is a recursive + call, and we have stopped in the prologue *before* the + stack frame was allocated. + + Recognize this case by looking ahead a bit ... */ - err = - s390_get_frame_info (test_function_start, &fextra_info, fi, 1); - loop_cnt++; - test_function_start -= 2; - function_end = s390_check_function_end (test_function_start); + struct s390_prologue_data data2; + struct prologue_value *sp = &data2.gpr[S390_SP_REGNUM - S390_R0_REGNUM]; + + if (!(s390_analyze_prologue (gdbarch, func, (CORE_ADDR)-1, &data2) + && sp->kind == pv_register + && sp->reg == S390_SP_REGNUM + && sp->k != 0)) + return 0; } - while (!(function_end == 1 || err || loop_cnt >= 4096 || - (fextra_info.good_prologue))); - if (fextra_info.good_prologue) - function_start = fextra_info.function_start; - else if (function_end == 1) - function_start = test_function_start; } - return function_start; -} -static int -s390_frameless_function_invocation (struct frame_info *fi) -{ - struct frame_extra_info fextra_info, *fextra_info_ptr; - int frameless = 0; + /* OK, we've found valid prologue data. */ + size = -sp->k; - if (get_next_frame (fi) == NULL) /* no may be frameless */ + /* If the frame pointer originally also holds the same value + as the stack pointer, we're probably using it. If it holds + some other value -- even a constant offset -- it is most + likely used as temp register. */ + if (pv_is_identical (sp, fp)) + frame_pointer = S390_FRAME_REGNUM; + else + frame_pointer = S390_SP_REGNUM; + + /* If we've detected a function with stack frame, we'll still have to + treat it as frameless if we're currently within the function epilog + code at a point where the frame pointer has already been restored. + This can only happen in an innermost frame. */ + if (size > 0 + && (get_frame_type (next_frame) != NORMAL_FRAME + || frame_relative_level (next_frame) < 0)) { - if (get_frame_extra_info (fi)) - fextra_info_ptr = get_frame_extra_info (fi); - else + /* See the comment in s390_in_function_epilogue_p on why this is + not completely reliable ... */ + if (s390_in_function_epilogue_p (gdbarch, frame_pc_unwind (next_frame))) { - fextra_info_ptr = &fextra_info; - s390_get_frame_info (s390_sniff_pc_function_start (get_frame_pc (fi), fi), - fextra_info_ptr, fi, 1); + memset (&data, 0, sizeof (data)); + size = 0; + frame_pointer = S390_SP_REGNUM; } - frameless = (fextra_info_ptr->stack_bought_valid - && fextra_info_ptr->stack_bought == 0); } - return frameless; -} + /* Once we know the frame register and the frame size, we can unwind + the current value of the frame register from the next frame, and + add back the frame size to arrive that the previous frame's + stack pointer value. */ + prev_sp = frame_unwind_register_unsigned (next_frame, frame_pointer) + size; + /* Scan the spill array; if a spill slot says it holds the + original value of some register, then record that slot's + address as the place that register was saved. */ -static int -s390_is_sigreturn (CORE_ADDR pc, struct frame_info *sighandler_fi, - CORE_ADDR *sregs, CORE_ADDR *sigcaller_pc) -{ - bfd_byte instr[S390_MAX_INSTR_SIZE]; - int instrlen; - CORE_ADDR scontext; - int retval = 0; - CORE_ADDR orig_sp; - CORE_ADDR temp_sregs; - - scontext = temp_sregs = 0; - - instrlen = s390_readinstruction (instr, pc); - if (sigcaller_pc) - *sigcaller_pc = 0; - if (((instrlen == S390_SYSCALL_SIZE) && - (instr[0] == S390_SYSCALL_OPCODE)) && - ((instr[1] == s390_NR_sigreturn) || (instr[1] == s390_NR_rt_sigreturn))) + /* Slots for %r2 .. %r15. */ + for (slot_num = 0, slot_addr = prev_sp + 2 * data.gpr_size; + slot_num < 14; + slot_num++, slot_addr += data.gpr_size) { - if (sighandler_fi) - { - if (s390_frameless_function_invocation (sighandler_fi)) - orig_sp = get_frame_base (sighandler_fi); - else - orig_sp = ADDR_BITS_REMOVE ((CORE_ADDR) - read_memory_integer (get_frame_base (sighandler_fi), - S390_GPR_SIZE)); - if (orig_sp && sigcaller_pc) - { - scontext = orig_sp + S390_SIGNAL_FRAMESIZE; - if (pc == scontext && instr[1] == s390_NR_rt_sigreturn) - { - /* We got a new style rt_signal */ - /* get address of read ucontext->uc_mcontext */ - temp_sregs = orig_sp + (GDB_TARGET_IS_ESAME ? - S390X_UC_MCONTEXT_OFFSET : - S390_UC_MCONTEXT_OFFSET); - } - else - { - /* read sigcontext->sregs */ - temp_sregs = ADDR_BITS_REMOVE ((CORE_ADDR) - read_memory_integer (scontext - + - (GDB_TARGET_IS_ESAME - ? - S390X_SIGCONTEXT_SREGS_OFFSET - : - S390_SIGCONTEXT_SREGS_OFFSET), - S390_GPR_SIZE)); - - } - /* read sigregs->psw.addr */ - *sigcaller_pc = - ADDR_BITS_REMOVE ((CORE_ADDR) - read_memory_integer (temp_sregs + - DEPRECATED_REGISTER_BYTE (S390_PSWA_REGNUM), - S390_GPR_SIZE)); - } - } - retval = 1; + struct prologue_value *slot = &data.spill[slot_num]; + + if (slot->kind == pv_register + && slot->k == 0) + info->saved_regs[slot->reg].addr = slot_addr; } - if (sregs) - *sregs = temp_sregs; - return retval; -} -/* - We need to do something better here but this will keep us out of trouble - for the moment. - For some reason the blockframe.c calls us with fi->next->fromleaf - so this seems of little use to us. */ -static CORE_ADDR -s390_init_frame_pc_first (int next_fromleaf, struct frame_info *fi) -{ - CORE_ADDR sigcaller_pc; - CORE_ADDR pc = 0; - if (next_fromleaf) + /* Slots for %f0 .. %f6. */ + for (slot_num = 14, slot_addr = prev_sp + 16 * data.gpr_size; + slot_num < S390_NUM_SPILL_SLOTS; + slot_num++, slot_addr += data.fpr_size) { - pc = ADDR_BITS_REMOVE (read_register (S390_RETADDR_REGNUM)); - /* fix signal handlers */ + struct prologue_value *slot = &data.spill[slot_num]; + + if (slot->kind == pv_register + && slot->k == 0) + info->saved_regs[slot->reg].addr = slot_addr; + } + + /* Function return will set PC to %r14. */ + info->saved_regs[S390_PC_REGNUM] = info->saved_regs[S390_RETADDR_REGNUM]; + + /* In frameless functions, we unwind simply by moving the return + address to the PC. However, if we actually stored to the + save area, use that -- we might only think the function frameless + because we're in the middle of the prologue ... */ + if (size == 0 + && !trad_frame_addr_p (info->saved_regs, S390_PC_REGNUM)) + { + info->saved_regs[S390_PC_REGNUM].realreg = S390_RETADDR_REGNUM; } - else if (get_next_frame (fi) && get_frame_pc (get_next_frame (fi))) - pc = s390_frame_saved_pc_nofix (get_next_frame (fi)); - if (pc && get_next_frame (fi) && get_frame_base (get_next_frame (fi)) - && s390_is_sigreturn (pc, get_next_frame (fi), NULL, &sigcaller_pc)) + + /* Another sanity check: unless this is a frameless function, + we should have found spill slots for SP and PC. + If not, we cannot unwind further -- this happens e.g. in + libc's thread_start routine. */ + if (size > 0) { - pc = sigcaller_pc; + if (!trad_frame_addr_p (info->saved_regs, S390_SP_REGNUM) + || !trad_frame_addr_p (info->saved_regs, S390_PC_REGNUM)) + prev_sp = -1; } - return pc; + + /* We use the current value of the frame register as local_base, + and the top of the register save area as frame_base. */ + if (prev_sp != -1) + { + info->frame_base = prev_sp + 16*word_size + 32; + info->local_base = prev_sp - size; + } + + info->func = func; + return 1; } static void -s390_init_extra_frame_info (int fromleaf, struct frame_info *fi) +s390_backchain_frame_unwind_cache (struct frame_info *next_frame, + struct s390_unwind_cache *info) { - frame_extra_info_zalloc (fi, sizeof (struct frame_extra_info)); - if (get_frame_pc (fi)) - s390_get_frame_info (s390_sniff_pc_function_start (get_frame_pc (fi), fi), - get_frame_extra_info (fi), fi, 1); - else - s390_memset_extra_info (get_frame_extra_info (fi)); + struct gdbarch *gdbarch = get_frame_arch (next_frame); + int word_size = gdbarch_ptr_bit (gdbarch) / 8; + CORE_ADDR backchain; + ULONGEST reg; + LONGEST sp; + + /* Get the backchain. */ + reg = frame_unwind_register_unsigned (next_frame, S390_SP_REGNUM); + backchain = read_memory_unsigned_integer (reg, word_size); + + /* A zero backchain terminates the frame chain. As additional + sanity check, let's verify that the spill slot for SP in the + save area pointed to by the backchain in fact links back to + the save area. */ + if (backchain != 0 + && safe_read_memory_integer (backchain + 15*word_size, word_size, &sp) + && (CORE_ADDR)sp == backchain) + { + /* We don't know which registers were saved, but it will have + to be at least %r14 and %r15. This will allow us to continue + unwinding, but other prev-frame registers may be incorrect ... */ + info->saved_regs[S390_SP_REGNUM].addr = backchain + 15*word_size; + info->saved_regs[S390_RETADDR_REGNUM].addr = backchain + 14*word_size; + + /* Function return will set PC to %r14. */ + info->saved_regs[S390_PC_REGNUM] = info->saved_regs[S390_RETADDR_REGNUM]; + + /* We use the current value of the frame register as local_base, + and the top of the register save area as frame_base. */ + info->frame_base = backchain + 16*word_size + 32; + info->local_base = reg; + } + + info->func = frame_pc_unwind (next_frame); } -/* If saved registers of frame FI are not known yet, read and cache them. - &FEXTRA_INFOP contains struct frame_extra_info; TDATAP can be NULL, - in which case the framedata are read. */ +static struct s390_unwind_cache * +s390_frame_unwind_cache (struct frame_info *next_frame, + void **this_prologue_cache) +{ + struct s390_unwind_cache *info; + if (*this_prologue_cache) + return *this_prologue_cache; + + info = FRAME_OBSTACK_ZALLOC (struct s390_unwind_cache); + *this_prologue_cache = info; + info->saved_regs = trad_frame_alloc_saved_regs (next_frame); + info->func = -1; + info->frame_base = -1; + info->local_base = -1; + + /* Try to use prologue analysis to fill the unwind cache. + If this fails, fall back to reading the stack backchain. */ + if (!s390_prologue_frame_unwind_cache (next_frame, info)) + s390_backchain_frame_unwind_cache (next_frame, info); + + return info; +} static void -s390_frame_init_saved_regs (struct frame_info *fi) +s390_frame_this_id (struct frame_info *next_frame, + void **this_prologue_cache, + struct frame_id *this_id) { + struct s390_unwind_cache *info + = s390_frame_unwind_cache (next_frame, this_prologue_cache); - int quick; + if (info->frame_base == -1) + return; - if (deprecated_get_frame_saved_regs (fi) == NULL) - { - /* zalloc memsets the saved regs */ - frame_saved_regs_zalloc (fi); - if (get_frame_pc (fi)) - { - quick = (get_frame_extra_info (fi) - && get_frame_extra_info (fi)->initialised - && get_frame_extra_info (fi)->good_prologue); - s390_get_frame_info (quick - ? get_frame_extra_info (fi)->function_start - : s390_sniff_pc_function_start (get_frame_pc (fi), fi), - get_frame_extra_info (fi), fi, !quick); - } - } + *this_id = frame_id_build (info->frame_base, info->func); } +static void +s390_frame_prev_register (struct frame_info *next_frame, + void **this_prologue_cache, + int regnum, int *optimizedp, + enum lval_type *lvalp, CORE_ADDR *addrp, + int *realnump, void *bufferp) +{ + struct s390_unwind_cache *info + = s390_frame_unwind_cache (next_frame, this_prologue_cache); + trad_frame_prev_register (next_frame, info->saved_regs, regnum, + optimizedp, lvalp, addrp, realnump, bufferp); +} + +static const struct frame_unwind s390_frame_unwind = { + NORMAL_FRAME, + s390_frame_this_id, + s390_frame_prev_register +}; + +static const struct frame_unwind * +s390_frame_sniffer (struct frame_info *next_frame) +{ + return &s390_frame_unwind; +} -static CORE_ADDR -s390_frame_saved_pc_nofix (struct frame_info *fi) +/* PLT stub stack frames. */ + +struct s390_pltstub_unwind_cache { + + CORE_ADDR frame_base; + struct trad_frame_saved_reg *saved_regs; +}; + +static struct s390_pltstub_unwind_cache * +s390_pltstub_frame_unwind_cache (struct frame_info *next_frame, + void **this_prologue_cache) { - if (get_frame_extra_info (fi) && get_frame_extra_info (fi)->saved_pc_valid) - return get_frame_extra_info (fi)->saved_pc; + struct gdbarch *gdbarch = get_frame_arch (next_frame); + int word_size = gdbarch_ptr_bit (gdbarch) / 8; + struct s390_pltstub_unwind_cache *info; + ULONGEST reg; - if (deprecated_generic_find_dummy_frame (get_frame_pc (fi), - get_frame_base (fi))) - return deprecated_read_register_dummy (get_frame_pc (fi), - get_frame_base (fi), S390_PC_REGNUM); + if (*this_prologue_cache) + return *this_prologue_cache; - s390_frame_init_saved_regs (fi); - if (get_frame_extra_info (fi)) - { - get_frame_extra_info (fi)->saved_pc_valid = 1; - if (get_frame_extra_info (fi)->good_prologue - && deprecated_get_frame_saved_regs (fi)[S390_RETADDR_REGNUM]) - get_frame_extra_info (fi)->saved_pc - = ADDR_BITS_REMOVE (read_memory_integer - (deprecated_get_frame_saved_regs (fi)[S390_RETADDR_REGNUM], - S390_GPR_SIZE)); - else - get_frame_extra_info (fi)->saved_pc - = ADDR_BITS_REMOVE (read_register (S390_RETADDR_REGNUM)); - return get_frame_extra_info (fi)->saved_pc; - } - return 0; + info = FRAME_OBSTACK_ZALLOC (struct s390_pltstub_unwind_cache); + *this_prologue_cache = info; + info->saved_regs = trad_frame_alloc_saved_regs (next_frame); + + /* The return address is in register %r14. */ + info->saved_regs[S390_PC_REGNUM].realreg = S390_RETADDR_REGNUM; + + /* Retrieve stack pointer and determine our frame base. */ + reg = frame_unwind_register_unsigned (next_frame, S390_SP_REGNUM); + info->frame_base = reg + 16*word_size + 32; + + return info; } -static CORE_ADDR -s390_frame_saved_pc (struct frame_info *fi) +static void +s390_pltstub_frame_this_id (struct frame_info *next_frame, + void **this_prologue_cache, + struct frame_id *this_id) { - CORE_ADDR saved_pc = 0, sig_pc; + struct s390_pltstub_unwind_cache *info + = s390_pltstub_frame_unwind_cache (next_frame, this_prologue_cache); + *this_id = frame_id_build (info->frame_base, frame_pc_unwind (next_frame)); +} - if (get_frame_extra_info (fi) - && get_frame_extra_info (fi)->sig_fixed_saved_pc_valid) - return get_frame_extra_info (fi)->sig_fixed_saved_pc; - saved_pc = s390_frame_saved_pc_nofix (fi); +static void +s390_pltstub_frame_prev_register (struct frame_info *next_frame, + void **this_prologue_cache, + int regnum, int *optimizedp, + enum lval_type *lvalp, CORE_ADDR *addrp, + int *realnump, void *bufferp) +{ + struct s390_pltstub_unwind_cache *info + = s390_pltstub_frame_unwind_cache (next_frame, this_prologue_cache); + trad_frame_prev_register (next_frame, info->saved_regs, regnum, + optimizedp, lvalp, addrp, realnump, bufferp); +} + +static const struct frame_unwind s390_pltstub_frame_unwind = { + NORMAL_FRAME, + s390_pltstub_frame_this_id, + s390_pltstub_frame_prev_register +}; - if (get_frame_extra_info (fi)) - { - get_frame_extra_info (fi)->sig_fixed_saved_pc_valid = 1; - if (saved_pc) - { - if (s390_is_sigreturn (saved_pc, fi, NULL, &sig_pc)) - saved_pc = sig_pc; - } - get_frame_extra_info (fi)->sig_fixed_saved_pc = saved_pc; - } - return saved_pc; -} +static const struct frame_unwind * +s390_pltstub_frame_sniffer (struct frame_info *next_frame) +{ + if (!in_plt_section (frame_pc_unwind (next_frame), NULL)) + return NULL; + return &s390_pltstub_frame_unwind; +} +/* Signal trampoline stack frames. */ -/* We want backtraces out of signal handlers so we don't set - (get_frame_type (thisframe) == SIGTRAMP_FRAME) to 1 */ +struct s390_sigtramp_unwind_cache { + CORE_ADDR frame_base; + struct trad_frame_saved_reg *saved_regs; +}; -static CORE_ADDR -s390_frame_chain (struct frame_info *thisframe) +static struct s390_sigtramp_unwind_cache * +s390_sigtramp_frame_unwind_cache (struct frame_info *next_frame, + void **this_prologue_cache) { - CORE_ADDR prev_fp = 0; + struct gdbarch *gdbarch = get_frame_arch (next_frame); + int word_size = gdbarch_ptr_bit (gdbarch) / 8; + struct s390_sigtramp_unwind_cache *info; + ULONGEST this_sp, prev_sp; + CORE_ADDR next_ra, next_cfa, sigreg_ptr; + int i; + + if (*this_prologue_cache) + return *this_prologue_cache; - if (deprecated_generic_find_dummy_frame (get_frame_pc (thisframe), - get_frame_base (thisframe))) - return deprecated_read_register_dummy (get_frame_pc (thisframe), - get_frame_base (thisframe), - S390_SP_REGNUM); + info = FRAME_OBSTACK_ZALLOC (struct s390_sigtramp_unwind_cache); + *this_prologue_cache = info; + info->saved_regs = trad_frame_alloc_saved_regs (next_frame); + + this_sp = frame_unwind_register_unsigned (next_frame, S390_SP_REGNUM); + next_ra = frame_pc_unwind (next_frame); + next_cfa = this_sp + 16*word_size + 32; + + /* New-style RT frame: + retcode + alignment (8 bytes) + siginfo (128 bytes) + ucontext (contains sigregs at offset 5 words) */ + if (next_ra == next_cfa) + { + sigreg_ptr = next_cfa + 8 + 128 + 5*word_size; + } + + /* Old-style RT frame and all non-RT frames: + old signal mask (8 bytes) + pointer to sigregs */ else { - int sigreturn = 0; - CORE_ADDR sregs = 0; - struct frame_extra_info prev_fextra_info; + sigreg_ptr = read_memory_unsigned_integer (next_cfa + 8, word_size); + } - memset (&prev_fextra_info, 0, sizeof (prev_fextra_info)); - if (get_frame_pc (thisframe)) - { - CORE_ADDR saved_pc, sig_pc; + /* The sigregs structure looks like this: + long psw_mask; + long psw_addr; + long gprs[16]; + int acrs[16]; + int fpc; + int __pad; + double fprs[16]; */ - saved_pc = s390_frame_saved_pc_nofix (thisframe); - if (saved_pc) - { - if ((sigreturn = - s390_is_sigreturn (saved_pc, thisframe, &sregs, &sig_pc))) - saved_pc = sig_pc; - s390_get_frame_info (s390_sniff_pc_function_start - (saved_pc, NULL), &prev_fextra_info, NULL, - 1); - } - } - if (sigreturn) - { - /* read sigregs,regs.gprs[11 or 15] */ - prev_fp = read_memory_integer (sregs + - DEPRECATED_REGISTER_BYTE (S390_R0_REGNUM + - (prev_fextra_info. - frame_pointer_saved_pc - ? 11 : 15)), - S390_GPR_SIZE); - get_frame_extra_info (thisframe)->sigcontext = sregs; - } - else - { - if (deprecated_get_frame_saved_regs (thisframe)) - { - int regno; - - if (prev_fextra_info.frame_pointer_saved_pc - && deprecated_get_frame_saved_regs (thisframe)[S390_FRAME_REGNUM]) - regno = S390_FRAME_REGNUM; - else - regno = S390_SP_REGNUM; - - if (deprecated_get_frame_saved_regs (thisframe)[regno]) - { - /* The SP's entry of `saved_regs' is special. */ - if (regno == S390_SP_REGNUM) - prev_fp = deprecated_get_frame_saved_regs (thisframe)[regno]; - else - prev_fp = - read_memory_integer (deprecated_get_frame_saved_regs (thisframe)[regno], - S390_GPR_SIZE); - } - } - } + /* Let's ignore the PSW mask, it will not be restored anyway. */ + sigreg_ptr += word_size; + + /* Next comes the PSW address. */ + info->saved_regs[S390_PC_REGNUM].addr = sigreg_ptr; + sigreg_ptr += word_size; + + /* Then the GPRs. */ + for (i = 0; i < 16; i++) + { + info->saved_regs[S390_R0_REGNUM + i].addr = sigreg_ptr; + sigreg_ptr += word_size; + } + + /* Then the ACRs. */ + for (i = 0; i < 16; i++) + { + info->saved_regs[S390_A0_REGNUM + i].addr = sigreg_ptr; + sigreg_ptr += 4; } - return ADDR_BITS_REMOVE (prev_fp); -} -/* - Whether struct frame_extra_info is actually needed I'll have to figure - out as our frames are similar to rs6000 there is a possibility - i386 dosen't need it. */ + /* The floating-point control word. */ + info->saved_regs[S390_FPC_REGNUM].addr = sigreg_ptr; + sigreg_ptr += 8; -/* Not the most efficent code in the world */ -static int -s390_fp_regnum (void) -{ - int regno = S390_SP_REGNUM; - struct frame_extra_info fextra_info; + /* And finally the FPRs. */ + for (i = 0; i < 16; i++) + { + info->saved_regs[S390_F0_REGNUM + i].addr = sigreg_ptr; + sigreg_ptr += 8; + } + + /* Restore the previous frame's SP. */ + prev_sp = read_memory_unsigned_integer ( + info->saved_regs[S390_SP_REGNUM].addr, + word_size); - CORE_ADDR pc = ADDR_BITS_REMOVE (read_register (S390_PC_REGNUM)); + /* Determine our frame base. */ + info->frame_base = prev_sp + 16*word_size + 32; - s390_get_frame_info (s390_sniff_pc_function_start (pc, NULL), &fextra_info, - NULL, 1); - if (fextra_info.frame_pointer_saved_pc) - regno = S390_FRAME_REGNUM; - return regno; + return info; } -static CORE_ADDR -s390_read_fp (void) +static void +s390_sigtramp_frame_this_id (struct frame_info *next_frame, + void **this_prologue_cache, + struct frame_id *this_id) { - return read_register (s390_fp_regnum ()); + struct s390_sigtramp_unwind_cache *info + = s390_sigtramp_frame_unwind_cache (next_frame, this_prologue_cache); + *this_id = frame_id_build (info->frame_base, frame_pc_unwind (next_frame)); } - static void -s390_pop_frame_regular (struct frame_info *frame) +s390_sigtramp_frame_prev_register (struct frame_info *next_frame, + void **this_prologue_cache, + int regnum, int *optimizedp, + enum lval_type *lvalp, CORE_ADDR *addrp, + int *realnump, void *bufferp) +{ + struct s390_sigtramp_unwind_cache *info + = s390_sigtramp_frame_unwind_cache (next_frame, this_prologue_cache); + trad_frame_prev_register (next_frame, info->saved_regs, regnum, + optimizedp, lvalp, addrp, realnump, bufferp); +} + +static const struct frame_unwind s390_sigtramp_frame_unwind = { + SIGTRAMP_FRAME, + s390_sigtramp_frame_this_id, + s390_sigtramp_frame_prev_register +}; + +static const struct frame_unwind * +s390_sigtramp_frame_sniffer (struct frame_info *next_frame) { - int regnum; + CORE_ADDR pc = frame_pc_unwind (next_frame); + bfd_byte sigreturn[2]; - write_register (S390_PC_REGNUM, DEPRECATED_FRAME_SAVED_PC (frame)); + if (read_memory_nobpt (pc, sigreturn, 2)) + return NULL; - /* Restore any saved registers. */ - if (deprecated_get_frame_saved_regs (frame)) - { - for (regnum = 0; regnum < NUM_REGS; regnum++) - if (deprecated_get_frame_saved_regs (frame)[regnum] != 0) - { - ULONGEST value; - - value = read_memory_unsigned_integer (deprecated_get_frame_saved_regs (frame)[regnum], - DEPRECATED_REGISTER_RAW_SIZE (regnum)); - write_register (regnum, value); - } - - /* Actually cut back the stack. Remember that the SP's element of - saved_regs is the old SP itself, not the address at which it is - saved. */ - write_register (S390_SP_REGNUM, deprecated_get_frame_saved_regs (frame)[S390_SP_REGNUM]); - } + if (sigreturn[0] != 0x0a /* svc */) + return NULL; - /* Throw away any cached frame information. */ - flush_cached_frames (); + if (sigreturn[1] != 119 /* sigreturn */ + && sigreturn[1] != 173 /* rt_sigreturn */) + return NULL; + + return &s390_sigtramp_frame_unwind; } -/* Destroy the innermost (Top-Of-Stack) stack frame, restoring the - machine state that was in effect before the frame was created. - Used in the contexts of the "return" command, and of - target function calls from the debugger. */ -static void -s390_pop_frame (void) +/* Frame base handling. */ + +static CORE_ADDR +s390_frame_base_address (struct frame_info *next_frame, void **this_cache) { - /* This function checks for and handles generic dummy frames, and - calls back to our function for ordinary frames. */ - generic_pop_current_frame (s390_pop_frame_regular); + struct s390_unwind_cache *info + = s390_frame_unwind_cache (next_frame, this_cache); + return info->frame_base; +} + +static CORE_ADDR +s390_local_base_address (struct frame_info *next_frame, void **this_cache) +{ + struct s390_unwind_cache *info + = s390_frame_unwind_cache (next_frame, this_cache); + return info->local_base; +} + +static const struct frame_base s390_frame_base = { + &s390_frame_unwind, + s390_frame_base_address, + s390_local_base_address, + s390_local_base_address +}; + +static CORE_ADDR +s390_unwind_pc (struct gdbarch *gdbarch, struct frame_info *next_frame) +{ + ULONGEST pc; + pc = frame_unwind_register_unsigned (next_frame, S390_PC_REGNUM); + return gdbarch_addr_bits_remove (gdbarch, pc); +} + +static CORE_ADDR +s390_unwind_sp (struct gdbarch *gdbarch, struct frame_info *next_frame) +{ + ULONGEST sp; + sp = frame_unwind_register_unsigned (next_frame, S390_SP_REGNUM); + return gdbarch_addr_bits_remove (gdbarch, sp); } @@ -2686,8 +2662,10 @@ s390_push_dummy_call (struct gdbarch *gdbarch, CORE_ADDR func_addr, /* Store updated stack pointer. */ regcache_cooked_write_unsigned (regcache, S390_SP_REGNUM, sp); - /* Return stack pointer. */ - return sp; + /* We need to return the 'stack part' of the frame ID, + which is actually the top of the register save area + allocated on the original stack. */ + return orig_sp + 16*word_size + 32; } /* Assuming NEXT_FRAME->prev is a dummy, return the frame ID of that @@ -2697,9 +2675,12 @@ s390_push_dummy_call (struct gdbarch *gdbarch, CORE_ADDR func_addr, static struct frame_id s390_unwind_dummy_id (struct gdbarch *gdbarch, struct frame_info *next_frame) { - ULONGEST sp; - frame_unwind_unsigned_register (next_frame, S390_SP_REGNUM, &sp); - return frame_id_build (sp, frame_pc_unwind (next_frame)); + int word_size = gdbarch_ptr_bit (gdbarch) / 8; + CORE_ADDR this_sp = s390_unwind_sp (gdbarch, next_frame); + CORE_ADDR prev_sp = read_memory_unsigned_integer (this_sp, word_size); + + return frame_id_build (prev_sp + 16*word_size + 32, + frame_pc_unwind (next_frame)); } static CORE_ADDR @@ -2815,6 +2796,8 @@ s390_return_value (struct gdbarch *gdbarch, struct type *type, } +/* Breakpoints. */ + static const unsigned char * s390_breakpoint_from_pc (CORE_ADDR *pcptr, int *lenptr) { @@ -2824,31 +2807,13 @@ s390_breakpoint_from_pc (CORE_ADDR *pcptr, int *lenptr) return breakpoint; } -/* Advance PC across any function entry prologue instructions to reach some - "real" code. */ -static CORE_ADDR -s390_skip_prologue (CORE_ADDR pc) -{ - struct frame_extra_info fextra_info; - s390_get_frame_info (pc, &fextra_info, NULL, 1); - return fextra_info.skip_prologue_function_start; -} - -/* Immediately after a function call, return the saved pc. - Can't go through the frames for this because on some machines - the new frame is not set up until the new function executes - some instructions. */ -static CORE_ADDR -s390_saved_pc_after_call (struct frame_info *frame) -{ - return ADDR_BITS_REMOVE (read_register (S390_RETADDR_REGNUM)); -} +/* Address handling. */ static CORE_ADDR s390_addr_bits_remove (CORE_ADDR addr) { - return (addr) & 0x7fffffff; + return addr & 0x7fffffff; } static int @@ -2882,6 +2847,9 @@ s390_address_class_name_to_type_flags (struct gdbarch *gdbarch, const char *name return 0; } + +/* Set up gdbarch struct. */ + static struct gdbarch * s390_gdbarch_init (struct gdbarch_info info, struct gdbarch_list *arches) { @@ -2901,41 +2869,21 @@ s390_gdbarch_init (struct gdbarch_info info, struct gdbarch_list *arches) tdep = XCALLOC (1, struct gdbarch_tdep); gdbarch = gdbarch_alloc (&info, tdep); - /* NOTE: cagney/2002-12-06: This can be deleted when this arch is - ready to unwind the PC first (see frame.c:get_prev_frame()). */ - set_gdbarch_deprecated_init_frame_pc (gdbarch, deprecated_init_frame_pc_default); - set_gdbarch_believe_pcc_promotion (gdbarch, 0); set_gdbarch_char_signed (gdbarch, 0); - set_gdbarch_deprecated_frame_chain (gdbarch, s390_frame_chain); - set_gdbarch_deprecated_frame_init_saved_regs (gdbarch, s390_frame_init_saved_regs); /* Amount PC must be decremented by after a breakpoint. This is often the number of bytes returned by BREAKPOINT_FROM_PC but not always. */ set_gdbarch_decr_pc_after_break (gdbarch, 2); - set_gdbarch_deprecated_pop_frame (gdbarch, s390_pop_frame); /* Stack grows downward. */ set_gdbarch_inner_than (gdbarch, core_addr_lessthan); set_gdbarch_breakpoint_from_pc (gdbarch, s390_breakpoint_from_pc); set_gdbarch_skip_prologue (gdbarch, s390_skip_prologue); - set_gdbarch_deprecated_init_extra_frame_info (gdbarch, s390_init_extra_frame_info); - set_gdbarch_deprecated_init_frame_pc_first (gdbarch, s390_init_frame_pc_first); - set_gdbarch_deprecated_target_read_fp (gdbarch, s390_read_fp); set_gdbarch_in_function_epilogue_p (gdbarch, s390_in_function_epilogue_p); - /* This function that tells us whether the function invocation represented - by FI does not have a frame on the stack associated with it. If it - does not, FRAMELESS is set to 1, else 0. */ - set_gdbarch_deprecated_frameless_function_invocation (gdbarch, s390_frameless_function_invocation); - /* Return saved PC from a frame */ - set_gdbarch_deprecated_frame_saved_pc (gdbarch, s390_frame_saved_pc); - /* DEPRECATED_FRAME_CHAIN takes a frame's nominal address and - produces the frame's chain-pointer. */ - set_gdbarch_deprecated_frame_chain (gdbarch, s390_frame_chain); - set_gdbarch_deprecated_saved_pc_after_call (gdbarch, s390_saved_pc_after_call); + set_gdbarch_pc_regnum (gdbarch, S390_PC_REGNUM); set_gdbarch_sp_regnum (gdbarch, S390_SP_REGNUM); - set_gdbarch_deprecated_fp_regnum (gdbarch, S390_SP_REGNUM); set_gdbarch_fp0_regnum (gdbarch, S390_F0_REGNUM); set_gdbarch_num_regs (gdbarch, S390_NUM_REGS); set_gdbarch_num_pseudo_regs (gdbarch, S390_NUM_PSEUDO_REGS); @@ -2957,6 +2905,15 @@ s390_gdbarch_init (struct gdbarch_info info, struct gdbarch_list *arches) set_gdbarch_frame_align (gdbarch, s390_frame_align); set_gdbarch_return_value (gdbarch, s390_return_value); + /* Frame handling. */ + set_gdbarch_in_solib_call_trampoline (gdbarch, in_plt_section); + frame_unwind_append_sniffer (gdbarch, s390_pltstub_frame_sniffer); + frame_unwind_append_sniffer (gdbarch, s390_sigtramp_frame_sniffer); + frame_unwind_append_sniffer (gdbarch, s390_frame_sniffer); + frame_base_set_default (gdbarch, &s390_frame_base); + set_gdbarch_unwind_pc (gdbarch, s390_unwind_pc); + set_gdbarch_unwind_sp (gdbarch, s390_unwind_sp); + switch (info.bfd_arch_info->mach) { case bfd_mach_s390_31: -- 2.34.1