/* Copyright (C) 2007-2008 The Android Open Source Project ** ** This software is licensed under the terms of the GNU General Public ** License version 2, as published by the Free Software Foundation, and ** may be copied, distributed, and modified under those terms. ** ** This program is distributed in the hope that it will be useful, ** but WITHOUT ANY WARRANTY; without even the implied warranty of ** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ** GNU General Public License for more details. */ /* * Virtual hardware for bridging the FUSE kernel module * in the emulated OS and outside file system */ #include "qemu_file.h" #include "goldfish_trace.h" #include "goldfish_vmem.h" #include "sysemu.h" #include "android-trace.h" #ifdef CONFIG_MEMCHECK #include "memcheck/memcheck.h" #include "memcheck/memcheck_util.h" #endif // CONFIG_MEMCHECK /* Set to 1 to debug tracing */ #define DEBUG 0 #if DEBUG # define D(...) printf(__VA_ARGS__), fflush(stdout) #else # define D(...) ((void)0) #endif /* Set to 1 to debug PID tracking */ #define DEBUG_PID 0 #if DEBUG_PID # define DPID(...) printf(__VA_ARGS__), fflush(stdout) #else # define DPID(...) ((void)0) #endif extern void cpu_loop_exit(void); extern int tracing; extern const char *trace_filename; /* for execve */ static char exec_path[CLIENT_PAGE_SIZE]; static char exec_arg[CLIENT_PAGE_SIZE]; static unsigned long vstart; // VM start static unsigned long vend; // VM end static unsigned long eoff; // offset in EXE file static unsigned cmdlen; // cmdline length static unsigned pid; // PID (really thread id) static unsigned tgid; // thread group id (really process id) static unsigned tid; // current thread id (same as pid, most of the time) static unsigned long dsaddr; // dynamic symbol address static unsigned long unmap_start; // start address to unmap /* for context switch */ //static unsigned long cs_pid; // context switch PID /* I/O write */ static void trace_dev_write(void *opaque, target_phys_addr_t offset, uint32_t value) { trace_dev_state *s = (trace_dev_state *)opaque; (void)s; switch (offset >> 2) { case TRACE_DEV_REG_SWITCH: // context switch, switch to pid DPID("QEMU.trace: context switch tid=%u\n", value); if (trace_filename != NULL) { trace_switch(value); D("QEMU.trace: kernel, context switch %u\n", value); } #ifdef CONFIG_MEMCHECK if (memcheck_enabled) { memcheck_switch(value); } #endif // CONFIG_MEMCHECK tid = (unsigned) value; break; case TRACE_DEV_REG_TGID: // save the tgid for the following fork/clone DPID("QEMU.trace: tgid=%u\n", value); tgid = value; if (trace_filename != NULL) { D("QEMU.trace: kernel, tgid %u\n", value); } break; case TRACE_DEV_REG_FORK: // fork, fork new pid DPID("QEMU.trace: fork (pid=%d tgid=%d value=%d)\n", pid, tgid, value); if (trace_filename != NULL) { trace_fork(tgid, value); D("QEMU.trace: kernel, fork %u\n", value); } #ifdef CONFIG_MEMCHECK if (memcheck_enabled) { memcheck_fork(tgid, value); } #endif // CONFIG_MEMCHECK break; case TRACE_DEV_REG_CLONE: // fork, clone new pid (i.e. thread) DPID("QEMU.trace: clone (pid=%d tgid=%d value=%d)\n", pid, tgid, value); if (trace_filename != NULL) { trace_clone(tgid, value); D("QEMU.trace: kernel, clone %u\n", value); } #ifdef CONFIG_MEMCHECK if (memcheck_enabled) { memcheck_clone(tgid, value); } #endif // CONFIG_MEMCHECK break; case TRACE_DEV_REG_EXECVE_VMSTART: // execve, vstart vstart = value; break; case TRACE_DEV_REG_EXECVE_VMEND: // execve, vend vend = value; break; case TRACE_DEV_REG_EXECVE_OFFSET: // execve, offset in EXE eoff = value; break; case TRACE_DEV_REG_EXECVE_EXEPATH: // init exec, path of EXE vstrcpy(value, exec_path, CLIENT_PAGE_SIZE); if (trace_filename != NULL) { trace_init_exec(vstart, vend, eoff, exec_path); D("QEMU.trace: kernel, init exec [%lx,%lx]@%lx [%s]\n", vstart, vend, eoff, exec_path); } #ifdef CONFIG_MEMCHECK if (memcheck_enabled) { if (exec_path[0] == '\0') { // vstrcpy may fail to copy path. In this case lets do it // differently. memcheck_get_guest_kernel_string(exec_path, value, CLIENT_PAGE_SIZE); } memcheck_mmap_exepath(vstart, vend, eoff, exec_path); } #endif // CONFIG_MEMCHECK exec_path[0] = 0; break; case TRACE_DEV_REG_CMDLINE_LEN: // execve, process cmdline length cmdlen = value; break; case TRACE_DEV_REG_CMDLINE: // execve, process cmdline safe_memory_rw_debug(cpu_single_env, value, (uint8_t*)exec_arg, cmdlen, 0); if (trace_filename != NULL) { trace_execve(exec_arg, cmdlen); } #ifdef CONFIG_MEMCHECK if (memcheck_enabled) { memcheck_set_cmd_line(exec_arg, cmdlen); } #endif // CONFIG_MEMCHECK #if DEBUG || DEBUG_PID if (trace_filename != NULL) { int i; for (i = 0; i < cmdlen; i ++) if (i != cmdlen - 1 && exec_arg[i] == 0) exec_arg[i] = ' '; printf("QEMU.trace: kernel, execve %s[%d]\n", exec_arg, cmdlen); exec_arg[0] = 0; } #endif break; case TRACE_DEV_REG_EXIT: // exit, exit current process with exit code DPID("QEMU.trace: exit tid=%u\n", value); if (trace_filename != NULL) { trace_exit(value); D("QEMU.trace: kernel, exit %x\n", value); } #ifdef CONFIG_MEMCHECK if (memcheck_enabled) { memcheck_exit(value); } #endif // CONFIG_MEMCHECK break; case TRACE_DEV_REG_NAME: // record thread name vstrcpy(value, exec_path, CLIENT_PAGE_SIZE); DPID("QEMU.trace: thread name=%s\n", exec_path); // Remove the trailing newline if it exists int len = strlen(exec_path); if (exec_path[len - 1] == '\n') { exec_path[len - 1] = 0; } if (trace_filename != NULL) { trace_name(exec_path); D("QEMU.trace: kernel, name %s\n", exec_path); } break; case TRACE_DEV_REG_MMAP_EXEPATH: // mmap, path of EXE, the others are same as execve vstrcpy(value, exec_path, CLIENT_PAGE_SIZE); DPID("QEMU.trace: mmap exe=%s\n", exec_path); if (trace_filename != NULL) { trace_mmap(vstart, vend, eoff, exec_path); D("QEMU.trace: kernel, mmap [%lx,%lx]@%lx [%s]\n", vstart, vend, eoff, exec_path); } #ifdef CONFIG_MEMCHECK if (memcheck_enabled) { if (exec_path[0] == '\0') { // vstrcpy may fail to copy path. In this case lets do it // differently. memcheck_get_guest_kernel_string(exec_path, value, CLIENT_PAGE_SIZE); } memcheck_mmap_exepath(vstart, vend, eoff, exec_path); } #endif // CONFIG_MEMCHECK exec_path[0] = 0; break; case TRACE_DEV_REG_INIT_PID: // init, name the pid that starts before device registered pid = value; DPID("QEMU.trace: pid=%d\n", value); #ifdef CONFIG_MEMCHECK if (memcheck_enabled) { memcheck_init_pid(value); } #endif // CONFIG_MEMCHECK break; case TRACE_DEV_REG_INIT_NAME: // init, the comm of the init pid vstrcpy(value, exec_path, CLIENT_PAGE_SIZE); DPID("QEMU.trace: tgid=%d pid=%d name=%s\n", tgid, pid, exec_path); if (trace_filename != NULL) { trace_init_name(tgid, pid, exec_path); D("QEMU.trace: kernel, init name %u [%s]\n", pid, exec_path); } exec_path[0] = 0; break; case TRACE_DEV_REG_DYN_SYM_ADDR: // dynamic symbol address dsaddr = value; break; case TRACE_DEV_REG_DYN_SYM: // add dynamic symbol vstrcpy(value, exec_arg, CLIENT_PAGE_SIZE); if (trace_filename != NULL) { trace_dynamic_symbol_add(dsaddr, exec_arg); D("QEMU.trace: dynamic symbol %lx:%s\n", dsaddr, exec_arg); } exec_arg[0] = 0; break; case TRACE_DEV_REG_REMOVE_ADDR: // remove dynamic symbol addr if (trace_filename != NULL) { trace_dynamic_symbol_remove(value); D("QEMU.trace: dynamic symbol remove %lx\n", dsaddr); } break; case TRACE_DEV_REG_PRINT_STR: // print string vstrcpy(value, exec_arg, CLIENT_PAGE_SIZE); printf("%s", exec_arg); exec_arg[0] = 0; break; case TRACE_DEV_REG_PRINT_NUM_DEC: // print number in decimal printf("%d", value); break; case TRACE_DEV_REG_PRINT_NUM_HEX: // print number in hexical printf("%x", value); break; case TRACE_DEV_REG_STOP_EMU: // stop the VM execution if (trace_filename != NULL) { // To ensure that the number of instructions executed in this // block is correct, we pretend that there was an exception. trace_exception(0); } cpu_single_env->exception_index = EXCP_HLT; cpu_single_env->halted = 1; qemu_system_shutdown_request(); cpu_loop_exit(); break; case TRACE_DEV_REG_ENABLE: // tracing enable: 0 = stop, 1 = start if (value == 1) { if (trace_filename != NULL) { start_tracing(); } } else if (value == 0) { if (trace_filename != NULL) { stop_tracing(); // To ensure that the number of instructions executed in this // block is correct, we pretend that there was an exception. trace_exception(0); } } break; case TRACE_DEV_REG_UNMAP_START: unmap_start = value; break; case TRACE_DEV_REG_UNMAP_END: if (trace_filename != NULL) { trace_munmap(unmap_start, value); } #ifdef CONFIG_MEMCHECK if (memcheck_enabled) { memcheck_unmap(unmap_start, value); } #endif // CONFIG_MEMCHECK break; case TRACE_DEV_REG_METHOD_ENTRY: case TRACE_DEV_REG_METHOD_EXIT: case TRACE_DEV_REG_METHOD_EXCEPTION: case TRACE_DEV_REG_NATIVE_ENTRY: case TRACE_DEV_REG_NATIVE_EXIT: case TRACE_DEV_REG_NATIVE_EXCEPTION: if (trace_filename != NULL) { if (tracing) { int call_type = (offset - 4096) >> 2; trace_interpreted_method(value, call_type); } } break; #ifdef CONFIG_MEMCHECK case TRACE_DEV_REG_MALLOC: if (memcheck_enabled) { memcheck_guest_alloc(value); } break; case TRACE_DEV_REG_FREE_PTR: if (memcheck_enabled) { memcheck_guest_free(value); } break; case TRACE_DEV_REG_QUERY_MALLOC: if (memcheck_enabled) { memcheck_guest_query_malloc(value); } break; case TRACE_DEV_REG_LIBC_INIT: if (memcheck_enabled) { memcheck_guest_libc_initialized(value); } break; case TRACE_DEV_REG_PRINT_USER_STR: if (memcheck_enabled) { memcheck_guest_print_str(value); } break; #endif // CONFIG_MEMCHECK default: if (offset < 4096) { cpu_abort(cpu_single_env, "trace_dev_write: Bad offset %x\n", offset); } else { D("%s: offset=%d (0x%x) value=%d (0x%x)\n", __FUNCTION__, offset, offset, value, value); } break; } } /* I/O read */ static uint32_t trace_dev_read(void *opaque, target_phys_addr_t offset) { trace_dev_state *s = (trace_dev_state *)opaque; (void)s; switch (offset >> 2) { case TRACE_DEV_REG_ENABLE: // tracing enable return tracing; default: if (offset < 4096) { cpu_abort(cpu_single_env, "trace_dev_read: Bad offset %x\n", offset); } else { D("%s: offset=%d (0x%x)\n", __FUNCTION__, offset, offset); } return 0; } return 0; } static CPUReadMemoryFunc *trace_dev_readfn[] = { trace_dev_read, trace_dev_read, trace_dev_read }; static CPUWriteMemoryFunc *trace_dev_writefn[] = { trace_dev_write, trace_dev_write, trace_dev_write }; /* initialize the trace device */ void trace_dev_init() { trace_dev_state *s; s = (trace_dev_state *)qemu_mallocz(sizeof(trace_dev_state)); s->dev.name = "qemu_trace"; s->dev.id = -1; s->dev.base = 0; // will be allocated dynamically s->dev.size = 0x2000; s->dev.irq = 0; s->dev.irq_count = 0; goldfish_device_add(&s->dev, trace_dev_readfn, trace_dev_writefn, s); exec_path[0] = exec_arg[0] = '\0'; }