From: Maxim Grigoriev Date: Fri, 11 Mar 2011 00:21:42 +0000 (+0000) Subject: 2011-03-10 Maxim Grigoriev X-Git-Url: https://git.libre-soc.org/?a=commitdiff_plain;h=dbab50dedadd99af06cec58edab31055c926810f;p=binutils-gdb.git 2011-03-10 Maxim Grigoriev * xtensa-tdep.c (xtensa_c0reg_t): Update comments. (xtensa_call0_frame_cache_t): Update comments. New fields added. (xtensa_alloc_frame_cache): Add initialization for new fields. (xtensa_frame_cache): Change the way how call0_frame_cache () is called. (warning_once): New function. (xtensa_insn_kind): New item c0opc_and. (call0_classify_opcode): Add the case for AND instruction. (call0_track_op): Change arguments. New local variable litbase. Add the case to handle c0opc_and. Update algorithms for c0opc_mov, c0opc_l32r, c0opc_s32i to take into account dynamic stack adjustments in prologue. Add cases for c0opc_l32e, c0opc_s32e, c0opc_rfwo, c0opc_rfwu. (call0_analyze_prologue): Update the comments. Change arguments. Add the variety of updates to handle extended prologues, which now can conduct dynamic stack adjustments. (call0_frame_cache): Likewise. (xtensa_skip_prologue): Update call0_analyze_prologue () function call. (xtensa_gdbarch_init): Initialize xtensa_session_once_reported. --- diff --git a/gdb/ChangeLog b/gdb/ChangeLog index 19a767eaa30..e795c5244b4 100644 --- a/gdb/ChangeLog +++ b/gdb/ChangeLog @@ -1,3 +1,23 @@ +2011-03-10 Maxim Grigoriev + + * xtensa-tdep.c (xtensa_c0reg_t): Update comments. + (xtensa_call0_frame_cache_t): Update comments. New fields added. + (xtensa_alloc_frame_cache): Add initialization for new fields. + (xtensa_frame_cache): Change the way how call0_frame_cache () is called. + (warning_once): New function. + (xtensa_insn_kind): New item c0opc_and. + (call0_classify_opcode): Add the case for AND instruction. + (call0_track_op): Change arguments. New local variable litbase. Add the + case to handle c0opc_and. Update algorithms for c0opc_mov, c0opc_l32r, + c0opc_s32i to take into account dynamic stack adjustments in prologue. + Add cases for c0opc_l32e, c0opc_s32e, c0opc_rfwo, c0opc_rfwu. + (call0_analyze_prologue): Update the comments. Change arguments. + Add the variety of updates to handle extended prologues, which now can + conduct dynamic stack adjustments. + (call0_frame_cache): Likewise. + (xtensa_skip_prologue): Update call0_analyze_prologue () function call. + (xtensa_gdbarch_init): Initialize xtensa_session_once_reported. + 2011-03-10 Michael Snyder * tracepoint.c (cmd_qtv): Discard unused value 'packet'. @@ -57,7 +77,7 @@ 2011-03-09 Maxim Grigoriev - * xtensa-tdep.c (xtensa_read_register: Add comment. + * xtensa-tdep.c (xtensa_read_register): Add comment. (xtensa_write_register): Likewise. (xtensa_hextochar): Add comment and update to match coding conventions. (xtensa_frame_cache, xtensa_return_value): Follow coding conventions. diff --git a/gdb/xtensa-tdep.c b/gdb/xtensa-tdep.c index 26335d8ba31..f6dacf83fb3 100644 --- a/gdb/xtensa-tdep.c +++ b/gdb/xtensa-tdep.c @@ -982,24 +982,30 @@ extern xtensa_isa xtensa_default_isa; typedef struct xtensa_c0reg { - int fr_reg; /* original register from which register content - is derived, or C0_CONST, or C0_INEXP. */ - int fr_ofs; /* constant offset from reg, or immediate value. */ - int to_stk; /* offset from original SP to register (4-byte - aligned), or C0_NOSTK if register has not - been saved. */ + int fr_reg; /* original register from which register content + is derived, or C0_CONST, or C0_INEXP. */ + int fr_ofs; /* constant offset from reg, or immediate value. */ + int to_stk; /* offset from original SP to register (4-byte aligned), + or C0_NOSTK if register has not been saved. */ } xtensa_c0reg_t; - /* Frame cache part for Call0 ABI. */ typedef struct xtensa_call0_frame_cache { - int c0_frmsz; /* Stack frame size. */ - int c0_hasfp; /* Current frame uses frame - pointer. */ - int fp_regnum; /* A-register used as FP. */ - int c0_fp; /* Actual value of frame pointer. */ - xtensa_c0reg_t c0_rt[C0_NREGS]; /* Register tracking information. */ + int c0_frmsz; /* Stack frame size. */ + int c0_hasfp; /* Current frame uses frame pointer. */ + int fp_regnum; /* A-register used as FP. */ + int c0_fp; /* Actual value of frame pointer. */ + int c0_fpalign; /* Dinamic adjustment for the stack + pointer. It's an AND mask. Zero, + if alignment was not adjusted. */ + int c0_old_sp; /* In case of dynamic adjustment, it is + a register holding unaligned sp. + C0_INEXP, when undefined. */ + int c0_sp_ofs; /* If "c0_old_sp" was spilled it's a + stack offset. C0_NOSTK otherwise. */ + + xtensa_c0reg_t c0_rt[C0_NREGS]; /* Register tracking information. */ } xtensa_call0_frame_cache_t; typedef struct xtensa_frame_cache @@ -1040,6 +1046,9 @@ xtensa_alloc_frame_cache (int windowed) cache->c0.c0_hasfp = 0; cache->c0.fp_regnum = -1; cache->c0.c0_fp = -1; + cache->c0.c0_fpalign = 0; + cache->c0.c0_old_sp = C0_INEXP; + cache->c0.c0_sp_ofs = C0_NOSTK; for (i = 0; i < C0_NREGS; i++) { @@ -1261,8 +1270,7 @@ done: static void call0_frame_cache (struct frame_info *this_frame, - xtensa_frame_cache_t *cache, - CORE_ADDR pc, CORE_ADDR litbase); + xtensa_frame_cache_t *cache, CORE_ADDR pc); static void xtensa_window_interrupt_frame_cache (struct frame_info *this_frame, @@ -1408,11 +1416,7 @@ xtensa_frame_cache (struct frame_info *this_frame, void **this_cache) } else /* Call0 framework. */ { - unsigned int litbase_regnum = gdbarch_tdep (gdbarch)->litbase_regnum; - CORE_ADDR litbase = (litbase_regnum == -1) - ? 0 : get_frame_register_unsigned (this_frame, litbase_regnum); - - call0_frame_cache (this_frame, cache, pc, litbase); + call0_frame_cache (this_frame, cache, pc); fp_regnum = cache->c0.fp_regnum; } @@ -1421,6 +1425,22 @@ xtensa_frame_cache (struct frame_info *this_frame, void **this_cache) return cache; } +static int xtensa_session_once_reported = 1; + +/* Report a problem with prologue analysis while doing backtracing. + But, do it only once to avoid annoyng repeated messages. */ + +static inline void warning_once () +{ + if (xtensa_session_once_reported == 0) + warning (_("\ +\nUnrecognised function prologue. Stack trace cannot be resolved. \ +This message will not be repeated in this session.\n")); + + xtensa_session_once_reported = 1; +} + + static void xtensa_frame_this_id (struct frame_info *this_frame, void **this_cache, @@ -2088,6 +2108,7 @@ typedef enum c0opc_break, /* Debugger software breakpoints. */ c0opc_add, /* Adding two registers. */ c0opc_addi, /* Adding a register and an immediate. */ + c0opc_and, /* Bitwise "and"-ing two registers. */ c0opc_sub, /* Subtracting a register from a register. */ c0opc_mov, /* Moving a register to a register. */ c0opc_movi, /* Moving an immediate to a register. */ @@ -2159,6 +2180,8 @@ call0_classify_opcode (xtensa_isa isa, xtensa_opcode opc) else if (strcasecmp (opcname, "add") == 0 || strcasecmp (opcname, "add.n") == 0) opclass = c0opc_add; + else if (strcasecmp (opcname, "and") == 0) + opclass = c0opc_and; else if (strcasecmp (opcname, "addi") == 0 || strcasecmp (opcname, "addi.n") == 0 || strcasecmp (opcname, "addmi") == 0) @@ -2190,16 +2213,16 @@ call0_classify_opcode (xtensa_isa isa, xtensa_opcode opc) be within a bundle. Updates the destination register tracking info accordingly. The pc is needed only for pc-relative load instructions (eg. l32r). The SP register number is needed to identify stores to - the stack frame. */ + the stack frame. Returns 0, if analysis was succesfull, non-zero + otherwise. */ -static void -call0_track_op (struct gdbarch *gdbarch, - xtensa_c0reg_t dst[], xtensa_c0reg_t src[], +static int +call0_track_op (struct gdbarch *gdbarch, xtensa_c0reg_t dst[], xtensa_c0reg_t src[], xtensa_insn_kind opclass, int nods, unsigned odv[], - CORE_ADDR pc, CORE_ADDR litbase, int spreg) + CORE_ADDR pc, int spreg, xtensa_frame_cache_t *cache) { enum bfd_endian byte_order = gdbarch_byte_order (gdbarch); - unsigned litaddr, litval; + unsigned litbase, litaddr, litval; switch (opclass) { @@ -2224,6 +2247,39 @@ call0_track_op (struct gdbarch *gdbarch, } else dst[odv[0]].fr_reg = C0_INEXP; break; + case c0opc_and: + /* 3 operands: dst, src1, src2. */ + gdb_assert (nods == 3); + if (cache->c0.c0_fpalign == 0) + { + /* Handle dynamic stack alignment. */ + if ((src[odv[0]].fr_reg == spreg) && (src[odv[1]].fr_reg == spreg)) + { + if (src[odv[2]].fr_reg == C0_CONST) + cache->c0.c0_fpalign = src[odv[2]].fr_ofs; + break; + } + else if ((src[odv[0]].fr_reg == spreg) + && (src[odv[2]].fr_reg == spreg)) + { + if (src[odv[1]].fr_reg == C0_CONST) + cache->c0.c0_fpalign = src[odv[1]].fr_ofs; + break; + } + /* else fall through. */ + } + if (src[odv[1]].fr_reg == C0_CONST) + { + dst[odv[0]].fr_reg = src[odv[2]].fr_reg; + dst[odv[0]].fr_ofs = src[odv[2]].fr_ofs & src[odv[1]].fr_ofs; + } + else if (src[odv[2]].fr_reg == C0_CONST) + { + dst[odv[0]].fr_reg = src[odv[1]].fr_reg; + dst[odv[0]].fr_ofs = src[odv[1]].fr_ofs & src[odv[2]].fr_ofs; + } + else dst[odv[0]].fr_reg = C0_INEXP; + break; case c0opc_sub: /* 3 operands: dst, src1, src2. */ gdb_assert (nods == 3); @@ -2237,6 +2293,13 @@ call0_track_op (struct gdbarch *gdbarch, case c0opc_mov: /* 2 operands: dst, src [, src]. */ gdb_assert (nods == 2); + /* First, check if it's a special case of saving unaligned SP + to a spare register in case of dynamic stack adjustment. + But, only do it one time. The second time could be initializing + frame pointer. We don't want to overwrite the first one. */ + if ((odv[1] == spreg) && (cache->c0.c0_old_sp == C0_INEXP)) + cache->c0.c0_old_sp = odv[0]; + dst[odv[0]].fr_reg = src[odv[1]].fr_reg; dst[odv[0]].fr_ofs = src[odv[1]].fr_ofs; break; @@ -2249,6 +2312,10 @@ call0_track_op (struct gdbarch *gdbarch, case c0opc_l32r: /* 2 operands: dst, literal offset. */ gdb_assert (nods == 2); + /* litbase = xtensa_get_litbase (pc); can be also used. */ + litbase = (gdbarch_tdep (gdbarch)->litbase_regnum == -1) + ? 0 : xtensa_read_register + (gdbarch_tdep (gdbarch)->litbase_regnum); litaddr = litbase & 1 ? (litbase & ~1) + (signed)odv[1] : (pc + 3 + (signed)odv[1]) & ~3; @@ -2259,6 +2326,13 @@ call0_track_op (struct gdbarch *gdbarch, case c0opc_s32i: /* 3 operands: value, base, offset. */ gdb_assert (nods == 3 && spreg >= 0 && spreg < C0_NREGS); + /* First, check if it's a spill for saved unaligned SP, + when dynamic stack adjustment was applied to this frame. */ + if ((cache->c0.c0_fpalign != 0) /* Dynamic stack adjustment. */ + && (odv[1] == spreg) /* SP usage indicates spill. */ + && (odv[0] == cache->c0.c0_old_sp)) /* Old SP register spilled. */ + cache->c0.c0_sp_ofs = odv[2]; + if (src[odv[1]].fr_reg == spreg /* Store to stack frame. */ && (src[odv[1]].fr_ofs & 3) == 0 /* Alignment preserved. */ && src[odv[0]].fr_reg >= 0 /* Value is from a register. */ @@ -2270,20 +2344,29 @@ call0_track_op (struct gdbarch *gdbarch, dst[src[odv[0]].fr_reg].to_stk = src[odv[1]].fr_ofs + odv[2]; } break; + /* If we end up inside Window Overflow / Underflow interrupt handler + report an error because these handlers should have been handled + already in a different way. */ + case c0opc_l32e: + case c0opc_s32e: + case c0opc_rfwo: + case c0opc_rfwu: + return 1; default: - gdb_assert_not_reached ("unexpected instruction kind"); + return 1; } + return 0; } -/* Analyze prologue of the function at start address to determine if it uses +/* Analyze prologue of the function at start address to determine if it uses the Call0 ABI, and if so track register moves and linear modifications - in the prologue up to the PC or just beyond the prologue, whichever is first. - An 'entry' instruction indicates non-Call0 ABI and the end of the prologue. - The prologue may overlap non-prologue instructions but is guaranteed to end - by the first flow-control instruction (jump, branch, call or return). - Since an optimized function may move information around and change the - stack frame arbitrarily during the prologue, the information is guaranteed - valid only at the point in the function indicated by the PC. + in the prologue up to the PC or just beyond the prologue, whichever is + first. An 'entry' instruction indicates non-Call0 ABI and the end of the + prologue. The prologue may overlap non-prologue instructions but is + guaranteed to end by the first flow-control instruction (jump, branch, + call or return). Since an optimized function may move information around + and change the stack frame arbitrarily during the prologue, the information + is guaranteed valid only at the point in the function indicated by the PC. May be used to skip the prologue or identify the ABI, w/o tracking. Returns: Address of first instruction after prologue, or PC (whichever @@ -2293,21 +2376,17 @@ call0_track_op (struct gdbarch *gdbarch, pc Program counter to stop at. Use 0 to continue to end of prologue. If 0, avoids infinite run-on in corrupt code memory by bounding the scan to the end of the function if that can be determined. - nregs Number of general registers to track (size of rt[] array). + nregs Number of general registers to track. InOut args: - rt[] Array[nregs] of xtensa_c0reg structures for register tracking info. - If NULL, registers are not tracked. - Output args: - call0 If != NULL, *call0 is set non-zero if Call0 ABI used, else 0 - (more accurately, non-zero until 'entry' insn is encountered). + cache Xtensa frame cache. Note that these may produce useful results even if decoding fails because they begin with default assumptions that analysis may change. */ static CORE_ADDR call0_analyze_prologue (struct gdbarch *gdbarch, - CORE_ADDR start, CORE_ADDR pc, CORE_ADDR litbase, - int nregs, xtensa_c0reg_t rt[], int *call0) + CORE_ADDR start, CORE_ADDR pc, + int nregs, xtensa_frame_cache_t *cache) { CORE_ADDR ia; /* Current insn address in prologue. */ CORE_ADDR ba = 0; /* Current address at base of insn buffer. */ @@ -2359,15 +2438,8 @@ call0_analyze_prologue (struct gdbarch *gdbarch, else body_pc = min (pc, body_pc); - if (call0 != NULL) - *call0 = 1; - - if (rt != NULL) - { - rtmp = (xtensa_c0reg_t*) alloca(nregs * sizeof(xtensa_c0reg_t)); - /* rt is already initialized in xtensa_alloc_frame_cache(). */ - } - else nregs = 0; + cache->call0 = 1; + rtmp = (xtensa_c0reg_t*) alloca(nregs * sizeof(xtensa_c0reg_t)); if (!xtensa_default_isa) xtensa_default_isa = xtensa_isa_init (0, 0); @@ -2386,9 +2458,8 @@ call0_analyze_prologue (struct gdbarch *gdbarch, { ba = ia; bt = (ba + XTENSA_ISA_BSZ) < body_pc ? ba + XTENSA_ISA_BSZ : body_pc; - read_memory (ba, ibuf, bt - ba); - /* If there is a memory reading error read_memory () will report it - and then throw an exception, stopping command execution. */ + if (target_read_memory (ba, ibuf, bt - ba) != 0 ) + error (_("Unable to read target memory ...")); } /* Decode format information. */ @@ -2418,7 +2489,7 @@ call0_analyze_prologue (struct gdbarch *gdbarch, register changes do not take effect within this bundle. */ for (j = 0; j < nregs; ++j) - rtmp[j] = rt[j]; + rtmp[j] = cache->c0.c0_rt[j]; for (is = 0; is < islots; ++is) { @@ -2429,8 +2500,7 @@ call0_analyze_prologue (struct gdbarch *gdbarch, goto done; opc = xtensa_opcode_decode (isa, ifmt, is, slot); - DEBUGVERB ("[call0_analyze_prologue] instr " - "addr = 0x%08x, opc = %d\n", + DEBUGVERB ("[call0_analyze_prologue] instr addr = 0x%08x, opc = %d\n", (unsigned)ia, opc); if (opc == XTENSA_UNDEFINED) opclass = c0opc_illegal; @@ -2449,23 +2519,20 @@ call0_analyze_prologue (struct gdbarch *gdbarch, case c0opc_uninteresting: continue; - case c0opc_flow: + case c0opc_flow: /* Flow control instructions stop analysis. */ + case c0opc_rwxsr: /* RSR, WSR, XSR instructions stop analysis. */ goto done; case c0opc_entry: - if (call0 != NULL) - *call0 = 0; + cache->call0 = 0; ia += ilen; /* Skip over 'entry' insn. */ goto done; default: - if (call0 != NULL) - *call0 = 1; + cache->call0 = 1; } /* Only expected opcodes should get this far. */ - if (rt == NULL) - continue; /* Extract and decode the operands. */ nods = xtensa_opcode_num_operands (isa, opc); @@ -2491,7 +2558,13 @@ call0_analyze_prologue (struct gdbarch *gdbarch, if (opclass == c0opc_mov && nods == 3) { if (odv[2] == odv[1]) - nods = 2; + { + nods = 2; + if ((odv[0] == 1) && (odv[1] != 1)) + /* OR A1, An, An , where n != 1. + This means we are inside epilogue already. */ + goto done; + } else { opclass = c0opc_uninteresting; @@ -2500,8 +2573,10 @@ call0_analyze_prologue (struct gdbarch *gdbarch, } /* Track register movement and modification for this operation. */ - call0_track_op (gdbarch, rt, rtmp, opclass, - nods, odv, ia, litbase, 1); + fail = call0_track_op (gdbarch, cache->c0.c0_rt, rtmp, + opclass, nods, odv, ia, 1, cache); + if (fail) + goto done; } } done: @@ -2516,39 +2591,38 @@ done: static void call0_frame_cache (struct frame_info *this_frame, - xtensa_frame_cache_t *cache, - CORE_ADDR pc, CORE_ADDR litbase) + xtensa_frame_cache_t *cache, CORE_ADDR pc) { struct gdbarch *gdbarch = get_frame_arch (this_frame); enum bfd_endian byte_order = gdbarch_byte_order (gdbarch); CORE_ADDR start_pc; /* The beginning of the function. */ CORE_ADDR body_pc=UINT_MAX; /* PC, where prologue analysis stopped. */ CORE_ADDR sp, fp, ra; - int fp_regnum, c0_hasfp, c0_frmsz, prev_sp, to_stk; + int fp_regnum = C0_SP, c0_hasfp = 0, c0_frmsz = 0, prev_sp = 0, to_stk; + sp = get_frame_register_unsigned + (this_frame, gdbarch_tdep (gdbarch)->a0_base + 1); + fp = sp; /* Assume FP == SP until proven otherwise. */ + /* Find the beginning of the prologue of the function containing the PC and analyze it up to the PC or the end of the prologue. */ if (find_pc_partial_function (pc, NULL, &start_pc, NULL)) { - body_pc = call0_analyze_prologue (gdbarch, start_pc, pc, litbase, - C0_NREGS, - &cache->c0.c0_rt[0], - &cache->call0); + body_pc = call0_analyze_prologue (gdbarch, start_pc, pc, C0_NREGS, cache); if (body_pc == XTENSA_ISA_BADPC) - error (_("Xtensa-specific internal error: CALL0 prologue \ -analysis failed in this frame. GDB command execution stopped.")); + { + warning_once (); + ra = 0; + goto finish_frame_analysis; + } } - sp = get_frame_register_unsigned - (this_frame, gdbarch_tdep (gdbarch)->a0_base + 1); - fp = sp; /* Assume FP == SP until proven otherwise. */ - /* Get the frame information and FP (if used) at the current PC. If PC is in the prologue, the prologue analysis is more reliable - than DWARF info. We don't not know for sure if PC is in the prologue, - but we know no calls have yet taken place, so we can almost + than DWARF info. We don't not know for sure, if PC is in the prologue, + but we do know no calls have yet taken place, so we can almost certainly rely on the prologue analysis. */ if (body_pc <= pc) @@ -2571,7 +2645,35 @@ analysis failed in this frame. GDB command execution stopped.")); start_pc = pc; } - prev_sp = fp + c0_frmsz; + if (cache->c0.c0_fpalign) + { + /* This frame has a special prologue with a dynamic stack adjustment + to force an alignment, which is bigger than standard 16 bytes. */ + + CORE_ADDR unaligned_sp; + + if (cache->c0.c0_old_sp == C0_INEXP) + /* This can't be. Prologue code should be consistent. + Unaligned stack pointer should be saved in a spare register. */ + { + warning_once (); + ra = 0; + goto finish_frame_analysis; + } + + if (cache->c0.c0_sp_ofs == C0_NOSTK) + /* Saved unaligned value of SP is kept in a register. */ + unaligned_sp = get_frame_register_unsigned + (this_frame, gdbarch_tdep (gdbarch)->a0_base + cache->c0.c0_old_sp); + else + /* Get the value from stack. */ + unaligned_sp = (CORE_ADDR) + read_memory_integer (fp + cache->c0.c0_sp_ofs, 4, byte_order); + + prev_sp = unaligned_sp + c0_frmsz; + } + else + prev_sp = fp + c0_frmsz; /* Frame size from debug info or prologue tracking does not account for alloca() and other dynamic allocations. Adjust frame size by FP - SP. */ @@ -2579,8 +2681,6 @@ analysis failed in this frame. GDB command execution stopped.")); { fp = get_frame_register_unsigned (this_frame, fp_regnum); - /* Recalculate previous SP. */ - prev_sp = fp + c0_frmsz; /* Update the stack frame size. */ c0_frmsz += fp - sp; } @@ -2597,23 +2697,21 @@ analysis failed in this frame. GDB command execution stopped.")); else if (cache->c0.c0_rt[C0_RA].fr_reg == C0_CONST && cache->c0.c0_rt[C0_RA].fr_ofs == 0) { - /* Special case for terminating backtrace at a function that - wants to be seen as the outermost. Such a function will - clear it's RA (A0) register to 0 in the prologue instead of - saving its original value. */ + /* Special case for terminating backtrace at a function that wants to + be seen as the outermost one. Such a function will clear it's RA (A0) + register to 0 in the prologue instead of saving its original value. */ ra = 0; } else { - /* RA was copied to another register or (before any function - call) may still be in the original RA register. This is not - always reliable: even in a leaf function, register tracking - stops after prologue, and even in prologue, non-prologue - instructions (not tracked) may overwrite RA or any register - it was copied to. If likely in prologue or before any call, - use retracking info and hope for the best (compiler should - have saved RA in stack if not in a leaf function). If not in - prologue, too bad. */ + /* RA was copied to another register or (before any function call) may + still be in the original RA register. This is not always reliable: + even in a leaf function, register tracking stops after prologue, and + even in prologue, non-prologue instructions (not tracked) may overwrite + RA or any register it was copied to. If likely in prologue or before + any call, use retracking info and hope for the best (compiler should + have saved RA in stack if not in a leaf function). If not in prologue, + too bad. */ int i; for (i = 0; @@ -2631,6 +2729,7 @@ analysis failed in this frame. GDB command execution stopped.")); else ra = 0; } + finish_frame_analysis: cache->pc = start_pc; cache->ra = ra; /* RA == 0 marks the outermost frame. Do not go past it. */ @@ -2971,7 +3070,8 @@ xtensa_skip_prologue (struct gdbarch *gdbarch, CORE_ADDR start_pc) } /* No debug line info. Analyze prologue for Call0 or simply skip ENTRY. */ - body_pc = call0_analyze_prologue (gdbarch, start_pc, 0, 0, 0, NULL, NULL); + body_pc = call0_analyze_prologue (gdbarch, start_pc, 0, 0, + xtensa_alloc_frame_cache (0)); return body_pc != 0 ? body_pc : start_pc; } @@ -3122,6 +3222,7 @@ xtensa_gdbarch_init (struct gdbarch_info info, struct gdbarch_list *arches) /* Verify our configuration. */ xtensa_verify_config (gdbarch); + xtensa_session_once_reported = 0; /* Pseudo-Register read/write. */ set_gdbarch_pseudo_register_read (gdbarch, xtensa_pseudo_register_read);