/*
* Copyright (c) 2014-2018, Intel Corporation
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* * Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
* * Neither the name of Intel Corporation nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
#include "ptunit.h"
#include "pt_packet_decoder.h"
#include "pt_query_decoder.h"
#include "pt_encoder.h"
#include "pt_opcodes.h"
#include "intel-pt.h"
#include <string.h>
/* A test fixture providing everything needed for packet en- and de-coding. */
struct packet_fixture {
/* The trace buffer. */
uint8_t buffer[64];
/* Two packets for encoding[0] and decoding[1]. */
struct pt_packet packet[2];
/* The configuration. */
struct pt_config config;
/* The encoder. */
struct pt_encoder encoder;
/* The decoder. */
struct pt_packet_decoder decoder;
/* The return value for an unknown decode. */
int unknown;
/* The test fixture initialization and finalization functions. */
struct ptunit_result (*init)(struct packet_fixture *);
struct ptunit_result (*fini)(struct packet_fixture *);
};
static int pfix_decode_unknown(struct pt_packet_unknown *packet,
const struct pt_config *config,
const uint8_t *pos, void *context)
{
struct packet_fixture *pfix;
if (!packet || !config)
return -pte_internal;
pfix = (struct packet_fixture *) context;
if (!pfix)
return -pte_internal;
if (config->begin != pfix->buffer)
return -pte_internal;
if (config->end != pfix->buffer + sizeof(pfix->buffer))
return -pte_internal;
if (pos != pfix->buffer)
return -pte_internal;
packet->priv = pfix;
return pfix->unknown;
}
static struct ptunit_result pfix_init(struct packet_fixture *pfix)
{
int errcode;
memset(pfix->buffer, 0, sizeof(pfix->buffer));
memset(pfix->packet, 0, sizeof(pfix->packet));
memset(&pfix->config, 0, sizeof(pfix->config));
pfix->config.size = sizeof(pfix->config);
pfix->config.begin = pfix->buffer;
pfix->config.end = pfix->buffer + sizeof(pfix->buffer);
pfix->config.decode.callback = pfix_decode_unknown;
pfix->config.decode.context = pfix;
pt_encoder_init(&pfix->encoder, &pfix->config);
pt_pkt_decoder_init(&pfix->decoder, &pfix->config);
errcode = pt_pkt_sync_set(&pfix->decoder, 0x0ull);
ptu_int_eq(errcode, 0);
pfix->unknown = 0;
return ptu_passed();
}
static struct ptunit_result pfix_fini(struct packet_fixture *pfix)
{
pt_encoder_fini(&pfix->encoder);
pt_pkt_decoder_fini(&pfix->decoder);
return ptu_passed();
}
static struct ptunit_result ptu_pkt_eq(const struct pt_packet *enc,
const struct pt_packet *dec)
{
const uint8_t *renc, *rdec;
size_t byte;
ptu_ptr(enc);
ptu_ptr(dec);
renc = (const uint8_t *) enc;
rdec = (const uint8_t *) dec;
for (byte = 0; byte < sizeof(*enc); ++byte)
ptu_uint_eq(renc[byte], rdec[byte]);
return ptu_passed();
}
static struct ptunit_result pfix_test(struct packet_fixture *pfix)
{
int size;
size = pt_enc_next(&pfix->encoder, &pfix->packet[0]);
ptu_int_gt(size, 0);
pfix->packet[0].size = (uint8_t) size;
size = pt_pkt_next(&pfix->decoder, &pfix->packet[1],
sizeof(pfix->packet[1]));
ptu_int_gt(size, 0);
return ptu_pkt_eq(&pfix->packet[0], &pfix->packet[1]);
}
static struct ptunit_result no_payload(struct packet_fixture *pfix,
enum pt_packet_type type)
{
pfix->packet[0].type = type;
ptu_test(pfix_test, pfix);
return ptu_passed();
}
static struct ptunit_result unknown(struct packet_fixture *pfix, int exp)
{
int size;
pfix->buffer[0] = pt_opc_bad;
pfix->unknown = exp;
size = pt_pkt_next(&pfix->decoder, &pfix->packet[1],
sizeof(pfix->packet[1]));
ptu_int_eq(size, pfix->unknown);
if (size >= 0) {
ptu_int_eq(pfix->packet[1].type, ppt_unknown);
ptu_uint_eq(pfix->packet[1].size, (uint8_t) size);
ptu_ptr_eq(pfix->packet[1].payload.unknown.packet,
pfix->buffer);
ptu_ptr_eq(pfix->packet[1].payload.unknown.priv, pfix);
}
return ptu_passed();
}
static struct ptunit_result unknown_ext(struct packet_fixture *pfix, int exp)
{
int size;
pfix->buffer[0] = pt_opc_ext;
pfix->buffer[1] = pt_ext_bad;
pfix->unknown = exp;
size = pt_pkt_next(&pfix->decoder, &pfix->packet[1],
sizeof(pfix->packet[1]));
ptu_int_eq(size, pfix->unknown);
if (size >= 0) {
ptu_int_eq(pfix->packet[1].type, ppt_unknown);
ptu_uint_eq(pfix->packet[1].size, (uint8_t) size);
ptu_ptr_eq(pfix->packet[1].payload.unknown.packet,
pfix->buffer);
ptu_ptr_eq(pfix->packet[1].payload.unknown.priv, pfix);
}
return ptu_passed();
}
static struct ptunit_result unknown_ext2(struct packet_fixture *pfix, int exp)
{
int size;
pfix->buffer[0] = pt_opc_ext;
pfix->buffer[1] = pt_ext_ext2;
pfix->buffer[2] = pt_ext2_bad;
pfix->unknown = exp;
size = pt_pkt_next(&pfix->decoder, &pfix->packet[1],
sizeof(pfix->packet[1]));
ptu_int_eq(size, exp);
if (exp >= 0) {
ptu_int_eq(pfix->packet[1].type, ppt_unknown);
ptu_uint_eq(pfix->packet[1].size, (uint8_t) size);
ptu_ptr_eq(pfix->packet[1].payload.unknown.packet,
pfix->buffer);
ptu_ptr_eq(pfix->packet[1].payload.unknown.priv, pfix);
}
return ptu_passed();
}
static struct ptunit_result tnt_8(struct packet_fixture *pfix)
{
pfix->packet[0].type = ppt_tnt_8;
pfix->packet[0].payload.tnt.bit_size = 4;
pfix->packet[0].payload.tnt.payload = 0x5ull;
ptu_test(pfix_test, pfix);
return ptu_passed();
}
static struct ptunit_result tnt_64(struct packet_fixture *pfix)
{
pfix->packet[0].type = ppt_tnt_64;
pfix->packet[0].payload.tnt.bit_size = 23;
pfix->packet[0].payload.tnt.payload = 0xabcdeull;
ptu_test(pfix_test, pfix);
return ptu_passed();
}
static struct ptunit_result ip(struct packet_fixture *pfix,
enum pt_packet_type type,
enum pt_ip_compression ipc,
uint64_t ip)
{
pfix->packet[0].type = type;
pfix->packet[0].payload.ip.ipc = ipc;
pfix->packet[0].payload.ip.ip = ip;
ptu_test(pfix_test, pfix);
return ptu_passed();
}
static struct ptunit_result mode_exec(struct packet_fixture *pfix,
enum pt_exec_mode mode)
{
struct pt_packet_mode_exec packet;
packet = pt_set_exec_mode(mode);
pfix->packet[0].type = ppt_mode;
pfix->packet[0].payload.mode.leaf = pt_mol_exec;
pfix->packet[0].payload.mode.bits.exec.csl = packet.csl;
pfix->packet[0].payload.mode.bits.exec.csd = packet.csd;
ptu_test(pfix_test, pfix);
return ptu_passed();
}
static struct ptunit_result mode_tsx(struct packet_fixture *pfix)
{
pfix->packet[0].type = ppt_mode;
pfix->packet[0].payload.mode.leaf = pt_mol_tsx;
pfix->packet[0].payload.mode.bits.tsx.intx = 1;
ptu_test(pfix_test, pfix);
return ptu_passed();
}
static struct ptunit_result pip(struct packet_fixture *pfix)
{
pfix->packet[0].type = ppt_pip;
pfix->packet[0].payload.pip.cr3 = 0x4200ull;
pfix->packet[0].payload.pip.nr = 1;
ptu_test(pfix_test, pfix);
return ptu_passed();
}
static struct ptunit_result tsc(struct packet_fixture *pfix)
{
pfix->packet[0].type = ppt_tsc;
pfix->packet[0].payload.tsc.tsc = 0x42ull;
ptu_test(pfix_test, pfix);
return ptu_passed();
}
static struct ptunit_result cbr(struct packet_fixture *pfix)
{
pfix->packet[0].type = ppt_cbr;
pfix->packet[0].payload.cbr.ratio = 0x23;
ptu_test(pfix_test, pfix);
return ptu_passed();
}
static struct ptunit_result tma(struct packet_fixture *pfix)
{
pfix->packet[0].type = ppt_tma;
pfix->packet[0].payload.tma.ctc = 0x42;
pfix->packet[0].payload.tma.fc = 0x123;
ptu_test(pfix_test, pfix);
return ptu_passed();
}
static struct ptunit_result tma_bad(struct packet_fixture *pfix)
{
int errcode;
pfix->packet[0].type = ppt_tma;
pfix->packet[0].payload.tma.ctc = 0x42;
pfix->packet[0].payload.tma.fc = 0x200;
errcode = pt_enc_next(&pfix->encoder, &pfix->packet[0]);
ptu_int_eq(errcode, -pte_bad_packet);
return ptu_passed();
}
static struct ptunit_result mtc(struct packet_fixture *pfix)
{
pfix->packet[0].type = ppt_mtc;
pfix->packet[0].payload.mtc.ctc = 0x23;
ptu_test(pfix_test, pfix);
return ptu_passed();
}
static struct ptunit_result cyc(struct packet_fixture *pfix)
{
pfix->packet[0].type = ppt_cyc;
pfix->packet[0].payload.cyc.value = 0x23;
ptu_test(pfix_test, pfix);
return ptu_passed();
}
static struct ptunit_result vmcs(struct packet_fixture *pfix)
{
pfix->packet[0].type = ppt_vmcs;
pfix->packet[0].payload.vmcs.base = 0xabcdef000ull;
ptu_test(pfix_test, pfix);
return ptu_passed();
}
static struct ptunit_result mnt(struct packet_fixture *pfix)
{
pfix->packet[0].type = ppt_mnt;
pfix->packet[0].payload.mnt.payload = 0x1234567890abcdefull;
ptu_test(pfix_test, pfix);
return ptu_passed();
}
static struct ptunit_result exstop(struct packet_fixture *pfix, int ip)
{
pfix->packet[0].type = ppt_exstop;
pfix->packet[0].payload.exstop.ip = ip ? 1 : 0;
ptu_test(pfix_test, pfix);
return ptu_passed();
}
static struct ptunit_result mwait(struct packet_fixture *pfix)
{
pfix->packet[0].type = ppt_mwait;
pfix->packet[0].payload.mwait.hints = 0xc;
pfix->packet[0].payload.mwait.ext = 0x1;
ptu_test(pfix_test, pfix);
return ptu_passed();
}
static struct ptunit_result pwre(struct packet_fixture *pfix)
{
pfix->packet[0].type = ppt_pwre;
pfix->packet[0].payload.pwre.state = 0x0;
pfix->packet[0].payload.pwre.sub_state = 0x3;
pfix->packet[0].payload.pwre.hw = 1;
ptu_test(pfix_test, pfix);
return ptu_passed();
}
static struct ptunit_result pwrx(struct packet_fixture *pfix)
{
pfix->packet[0].type = ppt_pwrx;
pfix->packet[0].payload.pwrx.last = 0x3;
pfix->packet[0].payload.pwrx.deepest = 0xa;
pfix->packet[0].payload.pwrx.store = 1;
ptu_test(pfix_test, pfix);
return ptu_passed();
}
static struct ptunit_result ptw(struct packet_fixture *pfix, uint8_t plc,
int ip)
{
uint64_t pl, mask;
int size;
size = pt_ptw_size(plc);
ptu_int_gt(size, 0);
pl = 0x1234567890abcdefull;
ptu_uint_le((size_t) size, sizeof(mask));
mask = ~0ull >> ((sizeof(mask) - (size_t) size) * 8);
pfix->packet[0].type = ppt_ptw;
pfix->packet[0].payload.ptw.payload = pl & mask;
pfix->packet[0].payload.ptw.plc = plc;
pfix->packet[0].payload.ptw.ip = ip ? 1 : 0;
ptu_test(pfix_test, pfix);
return ptu_passed();
}
static struct ptunit_result cutoff(struct packet_fixture *pfix,
enum pt_packet_type type)
{
int size;
pfix->packet[0].type = type;
size = pt_enc_next(&pfix->encoder, &pfix->packet[0]);
ptu_int_gt(size, 0);
pfix->decoder.config.end = pfix->encoder.pos - 1;
size = pt_pkt_next(&pfix->decoder, &pfix->packet[1],
sizeof(pfix->packet[1]));
ptu_int_eq(size, -pte_eos);
return ptu_passed();
}
static struct ptunit_result cutoff_ip(struct packet_fixture *pfix,
enum pt_packet_type type)
{
int size;
pfix->packet[0].type = type;
pfix->packet[0].payload.ip.ipc = pt_ipc_sext_48;
size = pt_enc_next(&pfix->encoder, &pfix->packet[0]);
ptu_int_gt(size, 0);
pfix->decoder.config.end = pfix->encoder.pos - 1;
size = pt_pkt_next(&pfix->decoder, &pfix->packet[1],
sizeof(pfix->packet[1]));
ptu_int_eq(size, -pte_eos);
return ptu_passed();
}
static struct ptunit_result cutoff_cyc(struct packet_fixture *pfix)
{
int size;
pfix->packet[0].type = ppt_cyc;
pfix->packet[0].payload.cyc.value = 0xa8;
size = pt_enc_next(&pfix->encoder, &pfix->packet[0]);
ptu_int_gt(size, 0);
pfix->decoder.config.end = pfix->encoder.pos - 1;
size = pt_pkt_next(&pfix->decoder, &pfix->packet[1],
sizeof(pfix->packet[1]));
ptu_int_eq(size, -pte_eos);
return ptu_passed();
}
static struct ptunit_result cutoff_mode(struct packet_fixture *pfix,
enum pt_mode_leaf leaf)
{
int size;
pfix->packet[0].type = ppt_mode;
pfix->packet[0].payload.mode.leaf = leaf;
size = pt_enc_next(&pfix->encoder, &pfix->packet[0]);
ptu_int_gt(size, 0);
pfix->decoder.config.end = pfix->encoder.pos - 1;
size = pt_pkt_next(&pfix->decoder, &pfix->packet[1],
sizeof(pfix->packet[1]));
ptu_int_eq(size, -pte_eos);
return ptu_passed();
}
int main(int argc, char **argv)
{
struct packet_fixture pfix;
struct ptunit_suite suite;
pfix.init = pfix_init;
pfix.fini = pfix_fini;
suite = ptunit_mk_suite(argc, argv);
ptu_run_fp(suite, no_payload, pfix, ppt_pad);
ptu_run_fp(suite, no_payload, pfix, ppt_psb);
ptu_run_fp(suite, no_payload, pfix, ppt_ovf);
ptu_run_fp(suite, no_payload, pfix, ppt_psbend);
ptu_run_fp(suite, no_payload, pfix, ppt_stop);
ptu_run_fp(suite, unknown, pfix, 4);
ptu_run_fp(suite, unknown, pfix, -pte_nomem);
ptu_run_fp(suite, unknown_ext, pfix, 4);
ptu_run_fp(suite, unknown_ext, pfix, -pte_nomem);
ptu_run_fp(suite, unknown_ext2, pfix, 4);
ptu_run_fp(suite, unknown_ext2, pfix, -pte_nomem);
ptu_run_f(suite, tnt_8, pfix);
ptu_run_f(suite, tnt_64, pfix);
ptu_run_fp(suite, ip, pfix, ppt_tip, pt_ipc_suppressed, 0x0ull);
ptu_run_fp(suite, ip, pfix, ppt_tip, pt_ipc_update_16, 0x42ull);
ptu_run_fp(suite, ip, pfix, ppt_tip, pt_ipc_update_32, 0x4200ull);
ptu_run_fp(suite, ip, pfix, ppt_tip, pt_ipc_update_48, 0x4200ull);
ptu_run_fp(suite, ip, pfix, ppt_tip, pt_ipc_sext_48, 0x42ull);
ptu_run_fp(suite, ip, pfix, ppt_tip, pt_ipc_full, 0x42ull);
ptu_run_fp(suite, ip, pfix, ppt_tip, pt_ipc_suppressed, 0x0ull);
ptu_run_fp(suite, ip, pfix, ppt_tip, pt_ipc_update_16, 0x42ull);
ptu_run_fp(suite, ip, pfix, ppt_tip, pt_ipc_update_32, 0x4200ull);
ptu_run_fp(suite, ip, pfix, ppt_tip, pt_ipc_update_48, 0x4200ull);
ptu_run_fp(suite, ip, pfix, ppt_tip, pt_ipc_sext_48, 0x42ull);
ptu_run_fp(suite, ip, pfix, ppt_tip, pt_ipc_full, 0x42ull);
ptu_run_fp(suite, ip, pfix, ppt_tip_pge, pt_ipc_suppressed, 0x0ull);
ptu_run_fp(suite, ip, pfix, ppt_tip_pge, pt_ipc_update_16, 0x42ull);
ptu_run_fp(suite, ip, pfix, ppt_tip_pge, pt_ipc_update_32, 0x4200ull);
ptu_run_fp(suite, ip, pfix, ppt_tip_pge, pt_ipc_update_48, 0x4200ull);
ptu_run_fp(suite, ip, pfix, ppt_tip_pge, pt_ipc_sext_48, 0x42ull);
ptu_run_fp(suite, ip, pfix, ppt_tip_pge, pt_ipc_full, 0x42ull);
ptu_run_fp(suite, ip, pfix, ppt_tip_pgd, pt_ipc_suppressed, 0x0ull);
ptu_run_fp(suite, ip, pfix, ppt_tip_pgd, pt_ipc_update_16, 0x42ull);
ptu_run_fp(suite, ip, pfix, ppt_tip_pgd, pt_ipc_update_32, 0x4200ull);
ptu_run_fp(suite, ip, pfix, ppt_tip_pgd, pt_ipc_update_48, 0x4200ull);
ptu_run_fp(suite, ip, pfix, ppt_tip_pgd, pt_ipc_sext_48, 0x42ull);
ptu_run_fp(suite, ip, pfix, ppt_tip_pgd, pt_ipc_full, 0x42ull);
ptu_run_fp(suite, ip, pfix, ppt_fup, pt_ipc_suppressed, 0x0ull);
ptu_run_fp(suite, ip, pfix, ppt_fup, pt_ipc_update_16, 0x42ull);
ptu_run_fp(suite, ip, pfix, ppt_fup, pt_ipc_update_32, 0x4200ull);
ptu_run_fp(suite, ip, pfix, ppt_fup, pt_ipc_update_48, 0x4200ull);
ptu_run_fp(suite, ip, pfix, ppt_fup, pt_ipc_sext_48, 0x42ull);
ptu_run_fp(suite, ip, pfix, ppt_fup, pt_ipc_full, 0x42ull);
ptu_run_fp(suite, mode_exec, pfix, ptem_16bit);
ptu_run_fp(suite, mode_exec, pfix, ptem_32bit);
ptu_run_fp(suite, mode_exec, pfix, ptem_64bit);
ptu_run_f(suite, mode_tsx, pfix);
ptu_run_f(suite, pip, pfix);
ptu_run_f(suite, tsc, pfix);
ptu_run_f(suite, cbr, pfix);
ptu_run_f(suite, tma, pfix);
ptu_run_f(suite, tma_bad, pfix);
ptu_run_f(suite, mtc, pfix);
ptu_run_f(suite, cyc, pfix);
ptu_run_f(suite, vmcs, pfix);
ptu_run_f(suite, mnt, pfix);
ptu_run_fp(suite, exstop, pfix, 0);
ptu_run_fp(suite, exstop, pfix, 1);
ptu_run_f(suite, mwait, pfix);
ptu_run_f(suite, pwre, pfix);
ptu_run_f(suite, pwrx, pfix);
ptu_run_fp(suite, ptw, pfix, 0, 1);
ptu_run_fp(suite, ptw, pfix, 1, 0);
ptu_run_fp(suite, cutoff, pfix, ppt_psb);
ptu_run_fp(suite, cutoff_ip, pfix, ppt_tip);
ptu_run_fp(suite, cutoff_ip, pfix, ppt_tip_pge);
ptu_run_fp(suite, cutoff_ip, pfix, ppt_tip_pgd);
ptu_run_fp(suite, cutoff_ip, pfix, ppt_fup);
ptu_run_fp(suite, cutoff, pfix, ppt_ovf);
ptu_run_fp(suite, cutoff, pfix, ppt_psbend);
ptu_run_fp(suite, cutoff, pfix, ppt_tnt_64);
ptu_run_fp(suite, cutoff, pfix, ppt_tsc);
ptu_run_fp(suite, cutoff, pfix, ppt_cbr);
ptu_run_fp(suite, cutoff, pfix, ppt_tma);
ptu_run_fp(suite, cutoff, pfix, ppt_mtc);
ptu_run_f(suite, cutoff_cyc, pfix);
ptu_run_fp(suite, cutoff_mode, pfix, pt_mol_exec);
ptu_run_fp(suite, cutoff_mode, pfix, pt_mol_tsx);
ptu_run_fp(suite, cutoff, pfix, ppt_vmcs);
ptu_run_fp(suite, cutoff, pfix, ppt_mnt);
ptu_run_fp(suite, cutoff, pfix, ppt_exstop);
ptu_run_fp(suite, cutoff, pfix, ppt_mwait);
ptu_run_fp(suite, cutoff, pfix, ppt_pwre);
ptu_run_fp(suite, cutoff, pfix, ppt_pwrx);
ptu_run_fp(suite, cutoff, pfix, ppt_ptw);
return ptunit_report(&suite);
}
/* Dummy decode functions to satisfy link dependencies.
*
* As a nice side-effect, we will know if we need to add more tests when
* adding new decoder functions.
*/
struct pt_query_decoder;
int pt_qry_decode_unknown(struct pt_query_decoder *d)
{
(void) d;
return -pte_internal;
}
int pt_qry_decode_pad(struct pt_query_decoder *d)
{
(void) d;
return -pte_internal;
}
int pt_qry_decode_psb(struct pt_query_decoder *d)
{
(void) d;
return -pte_internal;
}
int pt_qry_decode_tip(struct pt_query_decoder *d)
{
(void) d;
return -pte_internal;
}
int pt_qry_decode_tnt_8(struct pt_query_decoder *d)
{
(void) d;
return -pte_internal;
}
int pt_qry_decode_tnt_64(struct pt_query_decoder *d)
{
(void) d;
return -pte_internal;
}
int pt_qry_decode_tip_pge(struct pt_query_decoder *d)
{
(void) d;
return -pte_internal;
}
int pt_qry_decode_tip_pgd(struct pt_query_decoder *d)
{
(void) d;
return -pte_internal;
}
int pt_qry_decode_fup(struct pt_query_decoder *d)
{
(void) d;
return -pte_internal;
}
int pt_qry_header_fup(struct pt_query_decoder *d)
{
(void) d;
return -pte_internal;
}
int pt_qry_decode_pip(struct pt_query_decoder *d)
{
(void) d;
return -pte_internal;
}
int pt_qry_header_pip(struct pt_query_decoder *d)
{
(void) d;
return -pte_internal;
}
int pt_qry_decode_ovf(struct pt_query_decoder *d)
{
(void) d;
return -pte_internal;
}
int pt_qry_decode_mode(struct pt_query_decoder *d)
{
(void) d;
return -pte_internal;
}
int pt_qry_header_mode(struct pt_query_decoder *d)
{
(void) d;
return -pte_internal;
}
int pt_qry_decode_psbend(struct pt_query_decoder *d)
{
(void) d;
return -pte_internal;
}
int pt_qry_decode_tsc(struct pt_query_decoder *d)
{
(void) d;
return -pte_internal;
}
int pt_qry_header_tsc(struct pt_query_decoder *d)
{
(void) d;
return -pte_internal;
}
int pt_qry_decode_cbr(struct pt_query_decoder *d)
{
(void) d;
return -pte_internal;
}
int pt_qry_header_cbr(struct pt_query_decoder *d)
{
(void) d;
return -pte_internal;
}
int pt_qry_decode_tma(struct pt_query_decoder *d)
{
(void) d;
return -pte_internal;
}
int pt_qry_decode_mtc(struct pt_query_decoder *d)
{
(void) d;
return -pte_internal;
}
int pt_qry_decode_cyc(struct pt_query_decoder *d)
{
(void) d;
return -pte_internal;
}
int pt_qry_decode_stop(struct pt_query_decoder *d)
{
(void) d;
return -pte_internal;
}
int pt_qry_decode_vmcs(struct pt_query_decoder *d)
{
(void) d;
return -pte_internal;
}
int pt_qry_header_vmcs(struct pt_query_decoder *d)
{
(void) d;
return -pte_internal;
}
int pt_qry_decode_mnt(struct pt_query_decoder *d)
{
(void) d;
return -pte_internal;
}
int pt_qry_header_mnt(struct pt_query_decoder *d)
{
(void) d;
return -pte_internal;
}
int pt_qry_decode_exstop(struct pt_query_decoder *d)
{
(void) d;
return -pte_internal;
}
int pt_qry_decode_mwait(struct pt_query_decoder *d)
{
(void) d;
return -pte_internal;
}
int pt_qry_decode_pwre(struct pt_query_decoder *d)
{
(void) d;
return -pte_internal;
}
int pt_qry_decode_pwrx(struct pt_query_decoder *d)
{
(void) d;
return -pte_internal;
}
int pt_qry_decode_ptw(struct pt_query_decoder *d)
{
(void) d;
return -pte_internal;
}