#include #include #include #include #include #include #include struct context { void *buf; struct { size_t offset, len; bool has_offset, has_len; struct { FILE *src; size_t size; } wm; // write/map enum { MODE_MAP, MODE_WRITE, MODE_READ } mode; } op; struct { FILE *mem; pid_t pid; } proc; }; static void usage(const char *argv0) { fprintf(stderr, "usage: %s pid map file [offset] [len] < regions\n" " %s pid write file [offset] [len] < regions\n" " %s pid read [offset] [len] < regions\n" " regions must be in /proc//maps format", argv0, argv0, argv0); exit(EXIT_FAILURE); } static void context_init(struct context *ctx, size_t argc, const char *argv[]) { if (argc < 3) usage(argv[0]); size_t arg = 1; *ctx = (struct context){0}; ctx->proc.pid = strtoull(argv[arg++], NULL, 10); { bool m = false, w = false, r = false; const char *mode = argv[arg++]; if (!(m = !strcmp(mode, "map")) && !(w = !strcmp(mode, "write")) && !(r = !strcmp(mode, "read"))) errx(EXIT_FAILURE, "mode must be write or read"); ctx->op.mode = (m ? MODE_MAP : (w ? MODE_WRITE : MODE_READ)); } const char *wmname = NULL; if (ctx->op.mode == MODE_MAP || ctx->op.mode == MODE_WRITE) { if (argc < arg + 1) usage(argv[0]); wmname = argv[arg++]; } if (argc >= arg + 1) { ctx->op.offset = strtoull(argv[arg++], NULL, 10); ctx->op.has_offset = true; } if (argc >= arg + 1) { ctx->op.len = strtoull(argv[arg++], NULL, 10); ctx->op.has_len = true; } if (wmname) { if (!(ctx->op.wm.src = fopen(wmname, "rb"))) err(EXIT_FAILURE, "fopen(%s)", wmname); if (fseek(ctx->op.wm.src, 0, SEEK_END) != 0) err(EXIT_FAILURE, "fseek"); ctx->op.wm.size = ftell(ctx->op.wm.src); } char path[128]; snprintf(path, sizeof(path), "/proc/%u/mem", ctx->proc.pid); if (!(ctx->proc.mem = fopen(path, "w+b"))) err(EXIT_FAILURE, "fopen(%s)", path); } static void context_release(struct context *ctx) { if (ctx->op.wm.src) fclose(ctx->op.wm.src); fclose(ctx->proc.mem); free(ctx->buf); *ctx = (struct context){0}; } static void for_each_line_in_file(FILE *f, void (*cb)(const char *line, void *data), void *data) { char *buffer = NULL; size_t step = 1024, allocated = 0, written = 0, read = 0; do { if (written + read >= allocated && !(buffer = realloc(buffer, (allocated += step) + 1))) err(EXIT_FAILURE, "realloc"); buffer[(written += read)] = 0; size_t ate = 0; for (char *line = buffer, *nl; (nl = strchr(line, '\n')); line = nl + 1) { *nl = 0; cb(line, data); ate += nl + 1 - line; } memmove(buffer, buffer + ate, (written = written - ate)); } while ((read = fread(buffer + written, 1, allocated - written, f))); free(buffer); } static void region_cb(const char *line, void *data) { struct context *ctx = data; unsigned long start, end, region_offset; if (sscanf(line, "%lx-%lx %*s %lx", &start, &end, ®ion_offset) < 3) { warnx("failed to parse mapping:\n%s", line); return; } warnx("%s", line); start += ctx->op.offset; if (start > end) { warnx("write offset %lx is out of bounds", start); return; } region_offset = (ctx->op.mode == MODE_MAP ? region_offset : 0); // requested write/read const size_t rlen = (ctx->op.has_len ? ctx->op.len : (ctx->op.mode == MODE_READ ? end - start : ctx->op.wm.size)); // actual write/read const size_t len = (rlen > end - start ? end - start : rlen); if (!len) return; if (!(ctx->buf = realloc(ctx->buf, len))) err(EXIT_FAILURE, "realloc"); clearerr(ctx->proc.mem); if (ctx->op.mode == MODE_MAP || ctx->op.mode == MODE_WRITE) { if (fseek(ctx->op.wm.src, region_offset, SEEK_SET) != 0) err(EXIT_FAILURE, "fseek"); const size_t rd = fread(ctx->buf, 1, len, ctx->op.wm.src); if (fseek(ctx->proc.mem, start, SEEK_SET) != 0) err(EXIT_FAILURE, "fseek"); const size_t wd = fwrite(ctx->buf, 1, rd, ctx->proc.mem); if (ferror(ctx->proc.mem)) { warn("fread(/proc/%u/mem)", ctx->proc.pid); return; } if (ctx->op.mode == MODE_WRITE) { if (rlen > wd) { warnx("wrote %lu bytes (%lu bytes truncated) to offset 0x%lx", wd, rlen - wd, start); } else { warnx("wrote %lu bytes to offset 0x%lx", wd, start); } } else { if (rlen > wd) { warnx("mapped %lu bytes (%lu bytes truncated) from offset 0x%lx to offset 0x%lx", wd, rlen - wd, region_offset, start); } else { warnx("mapped %lu bytes from offset 0x%lx to offset 0x%lx", wd, region_offset, start); } } } else { if (fseek(ctx->proc.mem, start, SEEK_SET) != 0) err(EXIT_FAILURE, "fseek"); const size_t rd = fread(ctx->buf, 1, len, ctx->proc.mem); if (ferror(ctx->proc.mem)) warn("fread(/proc/%u/mem)", ctx->proc.pid); if (fwrite(ctx->buf, 1, rd, stdout) != rd) err(EXIT_FAILURE, "fwrite"); } } int main(int argc, const char *argv[]) { struct context ctx; context_init(&ctx, argc, argv); if (ptrace(PTRACE_ATTACH, ctx.proc.pid, NULL, NULL) == -1L) err(EXIT_FAILURE, "ptrace(PTRACE_ATTACH, %u, NULL, NULL)", ctx.proc.pid); { int status; if (waitpid(ctx.proc.pid, &status, 0) == -1 || !WIFSTOPPED(status)) err(EXIT_FAILURE, "waitpid"); } for_each_line_in_file(stdin, region_cb, &ctx); ptrace(PTRACE_DETACH, ctx.proc.pid, 1, 0); context_release(&ctx); return EXIT_SUCCESS; }