/* * BedBug Functions */ #include <common.h> #include <command.h> #include <linux/ctype.h> #include <net.h> #include <bedbug/type.h> #include <bedbug/bedbug.h> #include <bedbug/regs.h> #include <bedbug/ppc.h> DECLARE_GLOBAL_DATA_PTR; #ifndef MAX #define MAX(a,b) ((a) > (b) ? (a) : (b)) #endif extern void show_regs __P ((struct pt_regs *)); extern int run_command __P ((const char *, int)); extern char console_buffer[]; ulong dis_last_addr = 0; /* Last address disassembled */ ulong dis_last_len = 20; /* Default disassembler length */ CPU_DEBUG_CTX bug_ctx; /* Bedbug context structure */ /* ====================================================================== * U-Boot's puts function does not append a newline, so the bedbug stuff * will use this for the output of the dis/assembler. * ====================================================================== */ int bedbug_puts (const char *str) { /* -------------------------------------------------- */ printf ("%s\r\n", str); return 0; } /* bedbug_puts */ /* ====================================================================== * Initialize the bug_ctx structure used by the bedbug debugger. This is * specific to the CPU since each has different debug registers and * settings. * ====================================================================== */ void bedbug_init (void) { /* -------------------------------------------------- */ #if defined(CONFIG_4xx) void bedbug405_init (void); bedbug405_init (); #elif defined(CONFIG_8xx) void bedbug860_init (void); bedbug860_init (); #endif #if defined(CONFIG_MPC824X) || defined(CONFIG_MPC8260) /* Processors that are 603e core based */ void bedbug603e_init (void); bedbug603e_init (); #endif return; } /* bedbug_init */ /* ====================================================================== * Entry point from the interpreter to the disassembler. Repeated calls * will resume from the last disassembled address. * ====================================================================== */ int do_bedbug_dis (cmd_tbl_t * cmdtp, int flag, int argc, char *argv[]) { ulong addr; /* Address to start disassembly from */ ulong len; /* # of instructions to disassemble */ /* -------------------------------------------------- */ /* Setup to go from the last address if none is given */ addr = dis_last_addr; len = dis_last_len; if (argc < 2) { printf ("Usage:\n%s\n", cmdtp->usage); return 1; } if ((flag & CMD_FLAG_REPEAT) == 0) { /* New command */ addr = simple_strtoul (argv[1], NULL, 16); /* If an extra param is given then it is the length */ if (argc > 2) len = simple_strtoul (argv[2], NULL, 16); } /* Run the disassembler */ disppc ((unsigned char *) addr, 0, len, bedbug_puts, F_RADHEX); dis_last_addr = addr + (len * 4); dis_last_len = len; return 0; } /* do_bedbug_dis */ U_BOOT_CMD (ds, 3, 1, do_bedbug_dis, "ds - disassemble memory\n", "ds <address> [# instructions]\n"); /* ====================================================================== * Entry point from the interpreter to the assembler. Assembles * instructions in consecutive memory locations until a '.' (period) is * entered on a line by itself. * ====================================================================== */ int do_bedbug_asm (cmd_tbl_t * cmdtp, int flag, int argc, char *argv[]) { long mem_addr; /* Address to assemble into */ unsigned long instr; /* Machine code for text */ char prompt[15]; /* Prompt string for user input */ int asm_err; /* Error code from the assembler */ /* -------------------------------------------------- */ int rcode = 0; if (argc < 2) { printf ("Usage:\n%s\n", cmdtp->usage); return 1; } printf ("\nEnter '.' when done\n"); mem_addr = simple_strtoul (argv[1], NULL, 16); while (1) { putc ('\n'); disppc ((unsigned char *) mem_addr, 0, 1, bedbug_puts, F_RADHEX); sprintf (prompt, "%08lx: ", mem_addr); readline (prompt); if (console_buffer[0] && strcmp (console_buffer, ".")) { if ((instr = asmppc (mem_addr, console_buffer, &asm_err)) != 0) { *(unsigned long *) mem_addr = instr; mem_addr += 4; } else { printf ("*** Error: %s ***\n", asm_error_str (asm_err)); rcode = 1; } } else { break; } } return rcode; } /* do_bedbug_asm */ U_BOOT_CMD (as, 2, 0, do_bedbug_asm, "as - assemble memory\n", "as <address>\n"); /* ====================================================================== * Used to set a break point from the interpreter. Simply calls into the * CPU-specific break point set routine. * ====================================================================== */ int do_bedbug_break (cmd_tbl_t * cmdtp, int flag, int argc, char *argv[]) { /* -------------------------------------------------- */ if (bug_ctx.do_break) (*bug_ctx.do_break) (cmdtp, flag, argc, argv); return 0; } /* do_bedbug_break */ U_BOOT_CMD (break, 3, 0, do_bedbug_break, "break - set or clear a breakpoint\n", " - Set or clear a breakpoint\n" "break <address> - Break at an address\n" "break off <bp#> - Disable breakpoint.\n" "break show - List breakpoints.\n"); /* ====================================================================== * Called from the debug interrupt routine. Simply calls the CPU-specific * breakpoint handling routine. * ====================================================================== */ void do_bedbug_breakpoint (struct pt_regs *regs) { /* -------------------------------------------------- */ if (bug_ctx.break_isr) (*bug_ctx.break_isr) (regs); return; } /* do_bedbug_breakpoint */ /* ====================================================================== * Called from the CPU-specific breakpoint handling routine. Enter a * mini main loop until the stopped flag is cleared from the breakpoint * context. * * This handles the parts of the debugger that are common to all CPU's. * ====================================================================== */ void bedbug_main_loop (unsigned long addr, struct pt_regs *regs) { int len; /* Length of command line */ int flag; /* Command flags */ int rc = 0; /* Result from run_command */ char prompt_str[20]; /* Prompt string */ static char lastcommand[CONFIG_SYS_CBSIZE] = { 0 }; /* previous command */ /* -------------------------------------------------- */ if (bug_ctx.clear) (*bug_ctx.clear) (bug_ctx.current_bp); printf ("Breakpoint %d: ", bug_ctx.current_bp); disppc ((unsigned char *) addr, 0, 1, bedbug_puts, F_RADHEX); bug_ctx.stopped = 1; bug_ctx.regs = regs; sprintf (prompt_str, "BEDBUG.%d =>", bug_ctx.current_bp); /* A miniature main loop */ while (bug_ctx.stopped) { len = readline (prompt_str); flag = 0; /* assume no special flags for now */ if (len > 0) strcpy (lastcommand, console_buffer); else if (len == 0) flag |= CMD_FLAG_REPEAT; if (len == -1) printf ("<INTERRUPT>\n"); else rc = run_command (lastcommand, flag); if (rc <= 0) { /* invalid command or not repeatable, forget it */ lastcommand[0] = 0; } } bug_ctx.regs = NULL; bug_ctx.current_bp = 0; return; } /* bedbug_main_loop */ /* ====================================================================== * Interpreter command to continue from a breakpoint. Just clears the * stopped flag in the context so that the breakpoint routine will * return. * ====================================================================== */ int do_bedbug_continue (cmd_tbl_t * cmdtp, int flag, int argc, char *argv[]) { /* -------------------------------------------------- */ if (!bug_ctx.stopped) { printf ("Not at a breakpoint\n"); return 1; } bug_ctx.stopped = 0; return 0; } /* do_bedbug_continue */ U_BOOT_CMD (continue, 1, 0, do_bedbug_continue, "continue- continue from a breakpoint\n", " - continue from a breakpoint.\n"); /* ====================================================================== * Interpreter command to continue to the next instruction, stepping into * subroutines. Works by calling the find_next_addr() routine to compute * the address passes control to the CPU-specific set breakpoint routine * for the current breakpoint number. * ====================================================================== */ int do_bedbug_step (cmd_tbl_t * cmdtp, int flag, int argc, char *argv[]) { unsigned long addr; /* Address to stop at */ /* -------------------------------------------------- */ if (!bug_ctx.stopped) { printf ("Not at a breakpoint\n"); return 1; } if (!find_next_address ((unsigned char *) &addr, FALSE, bug_ctx.regs)) return 1; if (bug_ctx.set) (*bug_ctx.set) (bug_ctx.current_bp, addr); bug_ctx.stopped = 0; return 0; } /* do_bedbug_step */ U_BOOT_CMD (step, 1, 1, do_bedbug_step, "step - single step execution.\n", " - single step execution.\n"); /* ====================================================================== * Interpreter command to continue to the next instruction, stepping over * subroutines. Works by calling the find_next_addr() routine to compute * the address passes control to the CPU-specific set breakpoint routine * for the current breakpoint number. * ====================================================================== */ int do_bedbug_next (cmd_tbl_t * cmdtp, int flag, int argc, char *argv[]) { unsigned long addr; /* Address to stop at */ /* -------------------------------------------------- */ if (!bug_ctx.stopped) { printf ("Not at a breakpoint\n"); return 1; } if (!find_next_address ((unsigned char *) &addr, TRUE, bug_ctx.regs)) return 1; if (bug_ctx.set) (*bug_ctx.set) (bug_ctx.current_bp, addr); bug_ctx.stopped = 0; return 0; } /* do_bedbug_next */ U_BOOT_CMD (next, 1, 1, do_bedbug_next, "next - single step execution, stepping over subroutines.\n", " - single step execution, stepping over subroutines.\n"); /* ====================================================================== * Interpreter command to print the current stack. This assumes an EABI * architecture, so it starts with GPR R1 and works back up the stack. * ====================================================================== */ int do_bedbug_stack (cmd_tbl_t * cmdtp, int flag, int argc, char *argv[]) { unsigned long sp; /* Stack pointer */ unsigned long func; /* LR from stack */ int depth; /* Stack iteration level */ int skip = 1; /* Flag to skip the first entry */ unsigned long top; /* Top of memory address */ /* -------------------------------------------------- */ if (!bug_ctx.stopped) { printf ("Not at a breakpoint\n"); return 1; } top = gd->bd->bi_memstart + gd->bd->bi_memsize; depth = 0; printf ("Depth PC\n"); printf ("----- --------\n"); printf ("%5d %08lx\n", depth++, bug_ctx.regs->nip); sp = bug_ctx.regs->gpr[1]; func = *(unsigned long *) (sp + 4); while ((func < top) && (sp < top)) { if (!skip) printf ("%5d %08lx\n", depth++, func); else --skip; sp = *(unsigned long *) sp; func = *(unsigned long *) (sp + 4); } return 0; } /* do_bedbug_stack */ U_BOOT_CMD (where, 1, 1, do_bedbug_stack, "where - Print the running stack.\n", " - Print the running stack.\n"); /* ====================================================================== * Interpreter command to dump the registers. Calls the CPU-specific * show registers routine. * ====================================================================== */ int do_bedbug_rdump (cmd_tbl_t * cmdtp, int flag, int argc, char *argv[]) { /* -------------------------------------------------- */ if (!bug_ctx.stopped) { printf ("Not at a breakpoint\n"); return 1; } show_regs (bug_ctx.regs); return 0; } /* do_bedbug_rdump */ U_BOOT_CMD (rdump, 1, 1, do_bedbug_rdump, "rdump - Show registers.\n", " - Show registers.\n"); /* ====================================================================== */ /* * Copyright (c) 2001 William L. Pitts * All rights reserved. * * Redistribution and use in source and binary forms are freely * permitted provided that the above copyright notice and this * paragraph and the following disclaimer are duplicated in all * such forms. * * This software is provided "AS IS" and without any express or * implied warranties, including, without limitation, the implied * warranties of merchantability and fitness for a particular * purpose. */