4a448b148c
We now keep track of how many vcpus were started. This way, a plugin can easily query number of any vcpus at any point of execution, which unifies user and system mode workflows. Signed-off-by: Pierrick Bouvier <pierrick.bouvier@linaro.org> Reviewed-by: Richard Henderson <richard.henderson@linaro.org> Message-Id: <20240213094009.150349-3-pierrick.bouvier@linaro.org> Signed-off-by: Alex Bennée <alex.bennee@linaro.org> Message-Id: <20240227144335.1196131-17-alex.bennee@linaro.org>
405 lines
11 KiB
C
405 lines
11 KiB
C
/*
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* QEMU Plugin API
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*
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* This provides the API that is available to the plugins to interact
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* with QEMU. We have to be careful not to expose internal details of
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* how QEMU works so we abstract out things like translation and
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* instructions to anonymous data types:
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*
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* qemu_plugin_tb
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* qemu_plugin_insn
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*
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* Which can then be passed back into the API to do additional things.
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* As such all the public functions in here are exported in
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* qemu-plugin.h.
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*
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* The general life-cycle of a plugin is:
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*
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* - plugin is loaded, public qemu_plugin_install called
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* - the install func registers callbacks for events
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* - usually an atexit_cb is registered to dump info at the end
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* - when a registered event occurs the plugin is called
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* - some events pass additional info
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* - during translation the plugin can decide to instrument any
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* instruction
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* - when QEMU exits all the registered atexit callbacks are called
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*
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* Copyright (C) 2017, Emilio G. Cota <cota@braap.org>
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* Copyright (C) 2019, Linaro
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*
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* License: GNU GPL, version 2 or later.
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* See the COPYING file in the top-level directory.
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*
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* SPDX-License-Identifier: GPL-2.0-or-later
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*
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*/
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#include "qemu/osdep.h"
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#include "qemu/plugin.h"
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#include "qemu/log.h"
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#include "tcg/tcg.h"
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#include "exec/exec-all.h"
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#include "exec/ram_addr.h"
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#include "disas/disas.h"
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#include "plugin.h"
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#ifndef CONFIG_USER_ONLY
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#include "qemu/plugin-memory.h"
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#include "hw/boards.h"
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#else
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#include "qemu.h"
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#ifdef CONFIG_LINUX
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#include "loader.h"
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#endif
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#endif
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/* Uninstall and Reset handlers */
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void qemu_plugin_uninstall(qemu_plugin_id_t id, qemu_plugin_simple_cb_t cb)
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{
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plugin_reset_uninstall(id, cb, false);
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}
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void qemu_plugin_reset(qemu_plugin_id_t id, qemu_plugin_simple_cb_t cb)
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{
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plugin_reset_uninstall(id, cb, true);
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}
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/*
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* Plugin Register Functions
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*
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* This allows the plugin to register callbacks for various events
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* during the translation.
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*/
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void qemu_plugin_register_vcpu_init_cb(qemu_plugin_id_t id,
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qemu_plugin_vcpu_simple_cb_t cb)
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{
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plugin_register_cb(id, QEMU_PLUGIN_EV_VCPU_INIT, cb);
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}
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void qemu_plugin_register_vcpu_exit_cb(qemu_plugin_id_t id,
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qemu_plugin_vcpu_simple_cb_t cb)
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{
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plugin_register_cb(id, QEMU_PLUGIN_EV_VCPU_EXIT, cb);
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}
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void qemu_plugin_register_vcpu_tb_exec_cb(struct qemu_plugin_tb *tb,
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qemu_plugin_vcpu_udata_cb_t cb,
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enum qemu_plugin_cb_flags flags,
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void *udata)
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{
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if (!tb->mem_only) {
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plugin_register_dyn_cb__udata(&tb->cbs[PLUGIN_CB_REGULAR],
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cb, flags, udata);
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}
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}
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void qemu_plugin_register_vcpu_tb_exec_inline(struct qemu_plugin_tb *tb,
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enum qemu_plugin_op op,
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void *ptr, uint64_t imm)
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{
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if (!tb->mem_only) {
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plugin_register_inline_op(&tb->cbs[PLUGIN_CB_INLINE], 0, op, ptr, imm);
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}
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}
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void qemu_plugin_register_vcpu_insn_exec_cb(struct qemu_plugin_insn *insn,
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qemu_plugin_vcpu_udata_cb_t cb,
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enum qemu_plugin_cb_flags flags,
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void *udata)
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{
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if (!insn->mem_only) {
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plugin_register_dyn_cb__udata(&insn->cbs[PLUGIN_CB_INSN][PLUGIN_CB_REGULAR],
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cb, flags, udata);
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}
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}
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void qemu_plugin_register_vcpu_insn_exec_inline(struct qemu_plugin_insn *insn,
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enum qemu_plugin_op op,
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void *ptr, uint64_t imm)
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{
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if (!insn->mem_only) {
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plugin_register_inline_op(&insn->cbs[PLUGIN_CB_INSN][PLUGIN_CB_INLINE],
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0, op, ptr, imm);
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}
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}
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/*
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* We always plant memory instrumentation because they don't finalise until
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* after the operation has complete.
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*/
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void qemu_plugin_register_vcpu_mem_cb(struct qemu_plugin_insn *insn,
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qemu_plugin_vcpu_mem_cb_t cb,
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enum qemu_plugin_cb_flags flags,
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enum qemu_plugin_mem_rw rw,
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void *udata)
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{
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plugin_register_vcpu_mem_cb(&insn->cbs[PLUGIN_CB_MEM][PLUGIN_CB_REGULAR],
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cb, flags, rw, udata);
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}
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void qemu_plugin_register_vcpu_mem_inline(struct qemu_plugin_insn *insn,
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enum qemu_plugin_mem_rw rw,
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enum qemu_plugin_op op, void *ptr,
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uint64_t imm)
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{
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plugin_register_inline_op(&insn->cbs[PLUGIN_CB_MEM][PLUGIN_CB_INLINE],
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rw, op, ptr, imm);
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}
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void qemu_plugin_register_vcpu_tb_trans_cb(qemu_plugin_id_t id,
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qemu_plugin_vcpu_tb_trans_cb_t cb)
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{
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plugin_register_cb(id, QEMU_PLUGIN_EV_VCPU_TB_TRANS, cb);
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}
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void qemu_plugin_register_vcpu_syscall_cb(qemu_plugin_id_t id,
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qemu_plugin_vcpu_syscall_cb_t cb)
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{
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plugin_register_cb(id, QEMU_PLUGIN_EV_VCPU_SYSCALL, cb);
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}
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void
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qemu_plugin_register_vcpu_syscall_ret_cb(qemu_plugin_id_t id,
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qemu_plugin_vcpu_syscall_ret_cb_t cb)
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{
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plugin_register_cb(id, QEMU_PLUGIN_EV_VCPU_SYSCALL_RET, cb);
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}
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/*
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* Plugin Queries
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*
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* These are queries that the plugin can make to gauge information
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* from our opaque data types. We do not want to leak internal details
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* here just information useful to the plugin.
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*/
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/*
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* Translation block information:
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*
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* A plugin can query the virtual address of the start of the block
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* and the number of instructions in it. It can also get access to
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* each translated instruction.
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*/
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size_t qemu_plugin_tb_n_insns(const struct qemu_plugin_tb *tb)
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{
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return tb->n;
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}
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uint64_t qemu_plugin_tb_vaddr(const struct qemu_plugin_tb *tb)
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{
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return tb->vaddr;
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}
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struct qemu_plugin_insn *
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qemu_plugin_tb_get_insn(const struct qemu_plugin_tb *tb, size_t idx)
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{
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struct qemu_plugin_insn *insn;
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if (unlikely(idx >= tb->n)) {
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return NULL;
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}
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insn = g_ptr_array_index(tb->insns, idx);
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insn->mem_only = tb->mem_only;
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return insn;
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}
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/*
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* Instruction information
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*
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* These queries allow the plugin to retrieve information about each
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* instruction being translated.
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*/
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const void *qemu_plugin_insn_data(const struct qemu_plugin_insn *insn)
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{
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return insn->data->data;
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}
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size_t qemu_plugin_insn_size(const struct qemu_plugin_insn *insn)
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{
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return insn->data->len;
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}
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uint64_t qemu_plugin_insn_vaddr(const struct qemu_plugin_insn *insn)
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{
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return insn->vaddr;
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}
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void *qemu_plugin_insn_haddr(const struct qemu_plugin_insn *insn)
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{
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return insn->haddr;
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}
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char *qemu_plugin_insn_disas(const struct qemu_plugin_insn *insn)
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{
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CPUState *cpu = current_cpu;
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return plugin_disas(cpu, insn->vaddr, insn->data->len);
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}
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const char *qemu_plugin_insn_symbol(const struct qemu_plugin_insn *insn)
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{
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const char *sym = lookup_symbol(insn->vaddr);
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return sym[0] != 0 ? sym : NULL;
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}
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/*
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* The memory queries allow the plugin to query information about a
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* memory access.
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*/
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unsigned qemu_plugin_mem_size_shift(qemu_plugin_meminfo_t info)
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{
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MemOp op = get_memop(info);
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return op & MO_SIZE;
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}
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bool qemu_plugin_mem_is_sign_extended(qemu_plugin_meminfo_t info)
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{
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MemOp op = get_memop(info);
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return op & MO_SIGN;
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}
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bool qemu_plugin_mem_is_big_endian(qemu_plugin_meminfo_t info)
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{
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MemOp op = get_memop(info);
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return (op & MO_BSWAP) == MO_BE;
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}
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bool qemu_plugin_mem_is_store(qemu_plugin_meminfo_t info)
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{
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return get_plugin_meminfo_rw(info) & QEMU_PLUGIN_MEM_W;
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}
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/*
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* Virtual Memory queries
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*/
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#ifdef CONFIG_SOFTMMU
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static __thread struct qemu_plugin_hwaddr hwaddr_info;
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#endif
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struct qemu_plugin_hwaddr *qemu_plugin_get_hwaddr(qemu_plugin_meminfo_t info,
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uint64_t vaddr)
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{
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#ifdef CONFIG_SOFTMMU
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CPUState *cpu = current_cpu;
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unsigned int mmu_idx = get_mmuidx(info);
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enum qemu_plugin_mem_rw rw = get_plugin_meminfo_rw(info);
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hwaddr_info.is_store = (rw & QEMU_PLUGIN_MEM_W) != 0;
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assert(mmu_idx < NB_MMU_MODES);
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if (!tlb_plugin_lookup(cpu, vaddr, mmu_idx,
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hwaddr_info.is_store, &hwaddr_info)) {
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error_report("invalid use of qemu_plugin_get_hwaddr");
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return NULL;
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}
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return &hwaddr_info;
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#else
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return NULL;
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#endif
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}
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bool qemu_plugin_hwaddr_is_io(const struct qemu_plugin_hwaddr *haddr)
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{
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#ifdef CONFIG_SOFTMMU
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return haddr->is_io;
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#else
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return false;
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#endif
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}
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uint64_t qemu_plugin_hwaddr_phys_addr(const struct qemu_plugin_hwaddr *haddr)
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{
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#ifdef CONFIG_SOFTMMU
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if (haddr) {
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return haddr->phys_addr;
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}
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#endif
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return 0;
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}
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const char *qemu_plugin_hwaddr_device_name(const struct qemu_plugin_hwaddr *h)
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{
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#ifdef CONFIG_SOFTMMU
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if (h && h->is_io) {
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MemoryRegion *mr = h->mr;
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if (!mr->name) {
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unsigned maddr = (uintptr_t)mr;
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g_autofree char *temp = g_strdup_printf("anon%08x", maddr);
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return g_intern_string(temp);
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} else {
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return g_intern_string(mr->name);
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}
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} else {
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return g_intern_static_string("RAM");
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}
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#else
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return g_intern_static_string("Invalid");
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#endif
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}
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int qemu_plugin_num_vcpus(void)
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{
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return plugin_num_vcpus();
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}
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/*
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* Plugin output
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*/
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void qemu_plugin_outs(const char *string)
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{
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qemu_log_mask(CPU_LOG_PLUGIN, "%s", string);
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}
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bool qemu_plugin_bool_parse(const char *name, const char *value, bool *ret)
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{
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return name && value && qapi_bool_parse(name, value, ret, NULL);
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}
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/*
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* Binary path, start and end locations
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*/
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const char *qemu_plugin_path_to_binary(void)
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{
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char *path = NULL;
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#ifdef CONFIG_USER_ONLY
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TaskState *ts = (TaskState *) current_cpu->opaque;
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path = g_strdup(ts->bprm->filename);
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#endif
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return path;
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}
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uint64_t qemu_plugin_start_code(void)
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{
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uint64_t start = 0;
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#ifdef CONFIG_USER_ONLY
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TaskState *ts = (TaskState *) current_cpu->opaque;
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start = ts->info->start_code;
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#endif
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return start;
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}
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uint64_t qemu_plugin_end_code(void)
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{
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uint64_t end = 0;
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#ifdef CONFIG_USER_ONLY
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TaskState *ts = (TaskState *) current_cpu->opaque;
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end = ts->info->end_code;
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#endif
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return end;
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}
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uint64_t qemu_plugin_entry_code(void)
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{
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uint64_t entry = 0;
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#ifdef CONFIG_USER_ONLY
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TaskState *ts = (TaskState *) current_cpu->opaque;
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entry = ts->info->entry;
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#endif
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return entry;
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}
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