//$file${include::qs_pkg.h} vvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvv // // Model: qpc.qm // File: ${include::qs_pkg.h} // // This code has been generated by QM 6.2.0 . // DO NOT EDIT THIS FILE MANUALLY. All your changes will be lost. // // This code is covered by the following QP license: // License # : LicenseRef-QL-dual // Issued to : Any user of the QP/C real-time embedded framework // Framework(s) : qpc // Support ends : 2025-12-31 // License scope: // // Copyright (C) 2005 Quantum Leaps, LLC . // // Q u a n t u m L e a P s // ------------------------ // Modern Embedded Software // // SPDX-License-Identifier: GPL-3.0-or-later OR LicenseRef-QL-commercial // // This software is dual-licensed under the terms of the open source GNU // General Public License version 3 (or any later version), or alternatively, // under the terms of one of the closed source Quantum Leaps commercial // licenses. // // The terms of the open source GNU General Public License version 3 // can be found at: // // The terms of the closed source Quantum Leaps commercial licenses // can be found at: // // Redistributions in source code must retain this top-level comment block. // Plagiarizing this software to sidestep the license obligations is illegal. // // Contact information: // // // //$endhead${include::qs_pkg.h} ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ #ifndef QS_PKG_H_ #define QS_PKG_H_ //============================================================================ //! @cond INTERNAL //! QS received record types (RX channel) enum QSpyRxRecords { QS_RX_INFO, //!< query Target info (ver, config, tstamp) QS_RX_COMMAND, //!< execute a user-defined command in the Target QS_RX_RESET, //!< reset the Target QS_RX_TICK, //!< call system clock tick in the Target QS_RX_PEEK, //!< peek Target memory QS_RX_POKE, //!< poke Target memory QS_RX_FILL, //!< fill Target memory QS_RX_TEST_SETUP, //!< test setup QS_RX_TEST_TEARDOWN, //!< test teardown QS_RX_TEST_PROBE, //!< set a Test-Probe in the Target QS_RX_GLB_FILTER, //!< set global filters in the Target QS_RX_LOC_FILTER, //!< set local filters in the Target QS_RX_AO_FILTER, //!< set local AO filter in the Target QS_RX_CURR_OBJ, //!< set the "current-object" in the Target QS_RX_TEST_CONTINUE, //!< continue a test after QS_TEST_PAUSE() QS_RX_QUERY_CURR, //!< query the "current object" in the Target QS_RX_EVENT //!< inject an event to the Target }; //---------------------------------------------------------------------------- #define QS_FRAME 0x7EU #define QS_ESC 0x7DU #define QS_ESC_XOR 0x20U #define QS_GOOD_CHKSUM 0xFFU //---------------------------------------------------------------------------- #define QS_BEGIN_PRE_(rec_, qsId_) \ if (QS_GLB_CHECK_(rec_) && QS_LOC_CHECK_(qsId_)) { \ QS_beginRec_((uint_fast8_t)(rec_)); #define QS_END_PRE_() QS_endRec_(); } #define QS_U8_PRE_(data_) (QS_u8_raw_((uint8_t)(data_))) #define QS_2U8_PRE_(data1_, data2_) \ (QS_2u8_raw_((uint8_t)(data1_), (uint8_t)(data2_))) #define QS_U16_PRE_(data_) (QS_u16_raw_((uint16_t)(data_))) #define QS_U32_PRE_(data_) (QS_u32_raw_((uint32_t)(data_))) #define QS_STR_PRE_(msg_) (QS_str_raw_((msg_))) #define QS_OBJ_PRE_(obj_) (QS_obj_raw_(obj_)) #if (!defined Q_SIGNAL_SIZE || (Q_SIGNAL_SIZE == 1U)) #define QS_SIG_PRE_(sig_) (QS_u8_raw_((uint8_t)sig_)) #elif (Q_SIGNAL_SIZE == 2U) #define QS_SIG_PRE_(sig_) (QS_u16_raw_((uint16_t)sig_)) #elif (Q_SIGNAL_SIZE == 4U) #define QS_SIG_PRE_(sig_) (QS_u32_raw_((uint32_t)sig_)) #endif #if (!defined QS_FUN_PTR_SIZE || (QS_FUN_PTR_SIZE == 2U)) #define QS_FUN_PRE_(fun_) (QS_u16_raw_((uint16_t)(fun_))) #elif (QS_FUN_PTR_SIZE == 4U) #define QS_FUN_PRE_(fun_) (QS_u32_raw_((uint32_t)(fun_))) #elif (QS_FUN_PTR_SIZE == 8U) #define QS_FUN_PRE_(fun_) (QS_u64_raw_((uint64_t)(fun_))) #else #define QS_FUN_PRE_(fun_) (QS_u32_raw_((uint32_t)(fun_))) #endif //---------------------------------------------------------------------------- #if (!defined QF_EQUEUE_CTR_SIZE || (QF_EQUEUE_CTR_SIZE == 1U)) #define QS_EQC_PRE_(ctr_) QS_u8_raw_((uint8_t)(ctr_)) #elif (QF_EQUEUE_CTR_SIZE == 2U) #define QS_EQC_PRE_(ctr_) QS_u16_raw_((uint16_t)(ctr_)) #elif (QF_EQUEUE_CTR_SIZE == 4U) #define QS_EQC_PRE_(ctr_) QS_u32_raw_((uint32_t)(ctr_)) #endif #if (!defined QF_EVENT_SIZ_SIZE || (QF_EVENT_SIZ_SIZE == 1U)) #define QS_EVS_PRE_(size_) QS_u8_raw_((uint8_t)(size_)) #elif (QF_EVENT_SIZ_SIZE == 2U) #define QS_EVS_PRE_(size_) QS_u16_raw_((uint16_t)(size_)) #elif (QF_EVENT_SIZ_SIZE == 4U) #define QS_EVS_PRE_(size_) QS_u32_raw_((uint32_t)(size_)) #endif #if (!defined QF_MPOOL_SIZ_SIZE || (QF_MPOOL_SIZ_SIZE == 1U)) #define QS_MPS_PRE_(size_) QS_u8_raw_((uint8_t)(size_)) #elif (QF_MPOOL_SIZ_SIZE == 2U) #define QS_MPS_PRE_(size_) QS_u16_raw_((uint16_t)(size_)) #elif (QF_MPOOL_SIZ_SIZE == 4U) #define QS_MPS_PRE_(size_) QS_u32_raw_((uint32_t)(size_)) #endif #if (!defined QF_MPOOL_CTR_SIZE || (QF_MPOOL_CTR_SIZE == 1U)) #define QS_MPC_PRE_(ctr_) QS_u8_raw_((uint8_t)(ctr_)) #elif (QF_MPOOL_CTR_SIZE == 2U) #define QS_MPC_PRE_(ctr_) QS_u16_raw_((uint16_t)(ctr_)) #elif (QF_MPOOL_CTR_SIZE == 4U) #define QS_MPC_PRE_(ctr_) QS_u32_raw_((uint16_t)(ctr_)) #endif #if (!defined QF_TIMEEVT_CTR_SIZE || (QF_TIMEEVT_CTR_SIZE == 1U)) #define QS_TEC_PRE_(ctr_) QS_u8_raw_((uint8_t)(ctr_)) #elif (QF_TIMEEVT_CTR_SIZE == 2U) #define QS_TEC_PRE_(ctr_) QS_u16_raw_((uint16_t)(ctr_)) #elif (QF_TIMEEVT_CTR_SIZE == 4U) #define QS_TEC_PRE_(ctr_) QS_u32_raw_((uint32_t)(ctr_)) #endif //---------------------------------------------------------------------------- #define QS_INSERT_BYTE_(b_) \ buf[head] = (b_); \ ++head; \ if (head == end) { \ head = 0U; \ } #define QS_INSERT_ESC_BYTE_(b_) \ chksum = (uint8_t)(chksum + (b_)); \ if (((b_) != QS_FRAME) && ((b_) != QS_ESC)) { \ QS_INSERT_BYTE_(b_) \ } \ else { \ QS_INSERT_BYTE_(QS_ESC) \ QS_INSERT_BYTE_((uint8_t)((b_) ^ QS_ESC_XOR))\ ++QS_priv_.used; \ } //---------------------------------------------------------------------------- #if (defined Q_UTEST) && (Q_UTEST != 0) void QS_processTestEvts_(void); #endif // Q_UTEST != 0 //! @endcond //============================================================================ #endif // QS_PKG_H_