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/* Copyright (C) 2007-2010 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.
*/
/*
* Contains declarations of structures, routines, etc. related to process
* management in memchecker framework.
*/
#ifndef ANDROID_QEMU_MEMCHECK_MEMCHECK_PROC_MANAGEMENT_H
#define ANDROID_QEMU_MEMCHECK_MEMCHECK_PROC_MANAGEMENT_H
#include "qemu/queue.h"
#include "android/qemu/memcheck/memcheck_common.h"
#include "android/qemu/memcheck/memcheck_malloc_map.h"
#include "android/qemu/memcheck/memcheck_mmrange_map.h"
#ifdef __cplusplus
extern "C" {
#endif
// =============================================================================
// Process management structures
// =============================================================================
/* Describes a process that is monitored by memchecker framework. */
typedef struct ProcDesc {
/* Map of memory blocks allocated in context of this process. */
AllocMap alloc_map;
/* Map of memory mapped modules loaded in context of this process. */
MMRangeMap mmrange_map;
/* Descriptor's entry in the global process list. */
QLIST_ENTRY(ProcDesc) global_entry;
/* List of threads running in context of this process. */
QLIST_HEAD(threads, ThreadDesc) threads;
/* Path to the process' image file. */
char* image_path;
/* Process id. */
uint32_t pid;
/* Parent process id. */
uint32_t parent_pid;
/* Misc. process flags. See PROC_FLAG_XXX */
uint32_t flags;
} ProcDesc;
/* Process is executing. */
#define PROC_FLAG_EXECUTING 0x00000001
/* Process is exiting. */
#define PROC_FLAG_EXITING 0x00000002
/* ProcDesc->image_path has been replaced during process execution. */
#define PROC_FLAG_IMAGE_PATH_REPLACED 0x00000004
/* libc.so instance has been initialized for this process. */
#define PROC_FLAG_LIBC_INITIALIZED 0x00000008
/* Entry in the thread's calling stack array. */
typedef struct ThreadCallStackEntry {
/* Guest PC where call has been made. */
target_ulong call_address;
/* Guest PC where call has been made, relative to the beginning of the
* mapped module that contains call_address. */
target_ulong call_address_rel;
/* Guest PC where call will return. */
target_ulong ret_address;
/* Guest PC where call will return, relative to the beginning of the
* mapped module that contains ret_address. */
target_ulong ret_address_rel;
/* Path to the image file of the module containing call_address. */
char* module_path;
} ThreadCallStackEntry;
/* Describes a thread that is monitored by memchecker framework. */
typedef struct ThreadDesc {
/* Descriptor's entry in the global thread list. */
QLIST_ENTRY(ThreadDesc) global_entry;
/* Descriptor's entry in the process' thread list. */
QLIST_ENTRY(ThreadDesc) proc_entry;
/* Descriptor of the process this thread belongs to. */
ProcDesc* process;
/* Calling stack for this thread. */
ThreadCallStackEntry* call_stack;
/* Number of entries in the call_stack array. */
uint32_t call_stack_count;
/* Maximum number of entries that can fit into call_stack buffer. */
uint32_t call_stack_max;
/* Thread id. */
uint32_t tid;
} ThreadDesc;
// =============================================================================
// Inlines
// =============================================================================
/* Checks if process has been forked, rather than created from a "fresh" PID.
* Param:
* proc - Descriptor for the process to check.
* Return:
* boolean: 1 if process has been forked, or 0 if it was
* created from a "fresh" PID.
*/
static inline int
procdesc_is_forked(const ProcDesc* proc)
{
return proc->parent_pid != 0;
}
/* Checks if process is executing.
* Param:
* proc - Descriptor for the process to check.
* Return:
* boolean: 1 if process is executing, or 0 if it is not executing.
*/
static inline int
procdesc_is_executing(const ProcDesc* proc)
{
return (proc->flags & PROC_FLAG_EXECUTING) != 0;
}
/* Checks if process is exiting.
* Param:
* proc - Descriptor for the process to check.
* Return:
* boolean: 1 if process is exiting, or 0 if it is still alive.
*/
static inline int
procdesc_is_exiting(const ProcDesc* proc)
{
return (proc->flags & PROC_FLAG_EXITING) != 0;
}
/* Checks if process has initialized its libc.so instance.
* Param:
* proc - Descriptor for the process to check.
* Return:
* boolean: 1 if process has initialized its libc.so instance, or 0 otherwise.
*/
static inline int
procdesc_is_libc_initialized(const ProcDesc* proc)
{
return (proc->flags & PROC_FLAG_LIBC_INITIALIZED) != 0;
}
/* Checks if process image path has been replaced.
* Param:
* proc - Descriptor for the process to check.
* Return:
* boolean: 1 if process image path has been replaced,
* or 0 if it was not replaced.
*/
static inline int
procdesc_is_image_path_replaced(const ProcDesc* proc)
{
return (proc->flags & PROC_FLAG_IMAGE_PATH_REPLACED) != 0;
}
// =============================================================================
// Process management API
// =============================================================================
/* Gets thread descriptor for the current thread.
* Return:
* Found thread descriptor, or NULL if thread descriptor has not been found.
*/
ThreadDesc* get_current_thread(void);
/* Initializes process management API. */
void memcheck_init_proc_management(void);
/* Gets process descriptor for the current process.
* Return:
* Process descriptor for the current process, or NULL, if process descriptor
* has not been found.
*/
ProcDesc* get_current_process(void);
/* Finds process descriptor for a process id.
* Param:
* pid - Process ID to look up process descriptor for.
* Return:
* Process descriptor for the PID, or NULL, if process descriptor
* has not been found.
*/
ProcDesc* get_process_from_pid(uint32_t pid);
/* Inserts new (or replaces existing) entry in the allocation descriptors map
* for the given process.
* See allocmap_insert for more information on this routine, its parameters
* and returning value.
* Param:
* proc - Process descriptor where to add new allocation entry info.
*/
static inline RBTMapResult
procdesc_add_malloc(ProcDesc* proc,
const MallocDescEx* desc,
MallocDescEx* replaced)
{
return allocmap_insert(&proc->alloc_map, desc, replaced);
}
/* Finds an entry in the allocation descriptors map for the given process,
* matching given address range.
* See allocmap_find for more information on this routine, its parameters
* and returning value.
* Param:
* proc - Process descriptor where to find an allocation entry.
*/
static inline MallocDescEx*
procdesc_find_malloc_for_range(ProcDesc* proc,
target_ulong address,
uint32_t block_size)
{
return allocmap_find(&proc->alloc_map, address, block_size);
}
/* Finds an entry in the allocation descriptors map for the given process,
* matching given address.
* See allocmap_find for more information on this routine, its parameters
* and returning value.
* Param:
* proc - Process descriptor where to find an allocation entry.
*/
static inline MallocDescEx*
procdesc_find_malloc(ProcDesc* proc, target_ulong address)
{
return procdesc_find_malloc_for_range(proc, address, 1);
}
/* Pulls (finds and removes) an entry from the allocation descriptors map for
* the given process, matching given address.
* See allocmap_pull for more information on this routine, its parameters
* and returning value.
* Param:
* proc - Process descriptor where to pull an allocation entry from.
*/
static inline int
procdesc_pull_malloc(ProcDesc* proc, target_ulong address, MallocDescEx* pulled)
{
return allocmap_pull(&proc->alloc_map, address, pulled);
}
/* Empties allocation descriptors map for the process.
* Param:
* proc - Process to empty allocation map for.
* Return:
* Number of entries deleted from the allocation map.
*/
static inline int
procdesc_empty_alloc_map(ProcDesc* proc)
{
return allocmap_empty(&proc->alloc_map);
}
/* Finds mmapping entry for the given address in the given process.
* Param:
* proc - Descriptor of the process where to look for an entry.
* addr - Address in the guest space for which to find an entry.
* Return:
* Mapped entry, or NULL if no mapping for teh given address exists in the
* process address space.
*/
static inline MMRangeDesc*
procdesc_find_mapentry(const ProcDesc* proc, target_ulong addr)
{
return mmrangemap_find(&proc->mmrange_map, addr, addr + 1);
}
/* Gets module descriptor for the given address.
* Param:
* proc - Descriptor of the process where to look for a module.
* addr - Address in the guest space for which to find a module descriptor.
* Return:
* module descriptor for the module containing the given address, or NULL if no
* such module has been found in the process' map of mmaped modules.
*/
static inline const MMRangeDesc*
procdesc_get_range_desc(const ProcDesc* proc, target_ulong addr)
{
return procdesc_find_mapentry(proc, addr);
}
/* Gets name of the module mmaped in context of the given process for the
* given address.
* Param:
* proc - Descriptor of the process where to look for a module.
* addr - Address in the guest space for which to find a module.
* Return:
* Image path to the module containing the given address, or NULL if no such
* module has been found in the process' map of mmaped modules.
*/
static inline const char*
procdesc_get_module_path(const ProcDesc* proc, target_ulong addr)
{
MMRangeDesc* rdesc = procdesc_find_mapentry(proc, addr);
return rdesc != NULL ? rdesc->path : NULL;
}
#ifdef __cplusplus
}; /* end of extern "C" */
#endif
#endif // ANDROID_QEMU_MEMCHECK_MEMCHECK_PROC_MANAGEMENT_H