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authorØyvind Harboe <oyvind.harboe@zylin.com>2010-03-18 12:06:07 +0100
committerØyvind Harboe <oyvind.harboe@zylin.com>2010-03-18 12:08:11 +0100
commit46f92878da6c65eac275d1783e4e4019ec3c9af9 (patch)
tree4a6f07c9159de2aad6d5237c10da81c9b350a09f
parentd37ed9094a62ec144b9d9fdc214d8c7723caadec (diff)
oops: committed and pushed two temp files....
Signed-off-by: Øyvind Harboe <oyvind.harboe@zylin.com>
-rw-r--r--src/target/arm_adi_v5.c.orig1981
-rw-r--r--src/target/arm_adi_v5.c~1981
2 files changed, 0 insertions, 3962 deletions
diff --git a/src/target/arm_adi_v5.c.orig b/src/target/arm_adi_v5.c.orig
deleted file mode 100644
index 708e8581..00000000
--- a/src/target/arm_adi_v5.c.orig
+++ /dev/null
@@ -1,1981 +0,0 @@
-/***************************************************************************
- * Copyright (C) 2006 by Magnus Lundin *
- * lundin@mlu.mine.nu *
- * *
- * Copyright (C) 2008 by Spencer Oliver *
- * spen@spen-soft.co.uk *
- * *
- * Copyright (C) 2009 by Oyvind Harboe *
- * oyvind.harboe@zylin.com *
- * *
- * Copyright (C) 2009-2010 by David Brownell *
- * *
- * This program is free software; you can redistribute it and/or modify *
- * it under the terms of the GNU General Public License as published by *
- * the Free Software Foundation; either version 2 of the License, or *
- * (at your option) any later version. *
- * *
- * 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. *
- * *
- * You should have received a copy of the GNU General Public License *
- * along with this program; if not, write to the *
- * Free Software Foundation, Inc., *
- * 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. *
- ***************************************************************************/
-
-/**
- * @file
- * This file implements support for the ARM Debug Interface version 5 (ADIv5)
- * debugging architecture. Compared with previous versions, this includes
- * a low pin-count Serial Wire Debug (SWD) alternative to JTAG for message
- * transport, and focusses on memory mapped resources as defined by the
- * CoreSight architecture.
- *
- * A key concept in ADIv5 is the Debug Access Port, or DAP. A DAP has two
- * basic components: a Debug Port (DP) transporting messages to and from a
- * debugger, and an Access Port (AP) accessing resources. Three types of DP
- * are defined. One uses only JTAG for communication, and is called JTAG-DP.
- * One uses only SWD for communication, and is called SW-DP. The third can
- * use either SWD or JTAG, and is called SWJ-DP. The most common type of AP
- * is used to access memory mapped resources and is called a MEM-AP. Also a
- * JTAG-AP is also defined, bridging to JTAG resources; those are uncommon.
- *
- * This programming interface allows DAP pipelined operations through a
- * transaction queue. This primarily affects AP operations (such as using
- * a MEM-AP to access memory or registers). If the current transaction has
- * not finished by the time the next one must begin, and the ORUNDETECT bit
- * is set in the DP_CTRL_STAT register, the SSTICKYORUN status is set and
- * further AP operations will fail. There are two basic methods to avoid
- * such overrun errors. One involves polling for status instead of using
- * transaction piplining. The other involves adding delays to ensure the
- * AP has enough time to complete one operation before starting the next
- * one. (For JTAG these delays are controlled by memaccess_tck.)
- */
-
-/*
- * Relevant specifications from ARM include:
- *
- * ARM(tm) Debug Interface v5 Architecture Specification ARM IHI 0031A
- * CoreSight(tm) v1.0 Architecture Specification ARM IHI 0029B
- *
- * CoreSight(tm) DAP-Lite TRM, ARM DDI 0316D
- * Cortex-M3(tm) TRM, ARM DDI 0337G
- */
-
-#ifdef HAVE_CONFIG_H
-#include "config.h"
-#endif
-
-#include "arm.h"
-#include "arm_adi_v5.h"
-#include <helper/time_support.h>
-
-
-/* ARM ADI Specification requires at least 10 bits used for TAR autoincrement */
-
-/*
- uint32_t tar_block_size(uint32_t address)
- Return the largest block starting at address that does not cross a tar block size alignment boundary
-*/
-static uint32_t max_tar_block_size(uint32_t tar_autoincr_block, uint32_t address)
-{
- return (tar_autoincr_block - ((tar_autoincr_block - 1) & address)) >> 2;
-}
-
-/***************************************************************************
- * *
-<<<<<<< HEAD:src/target/arm_adi_v5.c
-=======
- * DPACC and APACC scanchain access through JTAG-DP *
- * *
-***************************************************************************/
-
-/**
- * Scan DPACC or APACC using target ordered uint8_t buffers. No endianness
- * conversions are performed. See section 4.4.3 of the ADIv5 spec, which
- * discusses operations which access these registers.
- *
- * Note that only one scan is performed. If RnW is set, a separate scan
- * will be needed to collect the data which was read; the "invalue" collects
- * the posted result of a preceding operation, not the current one.
- *
- * @param swjdp the DAP
- * @param instr JTAG_DP_APACC (AP access) or JTAG_DP_DPACC (DP access)
- * @param reg_addr two significant bits; A[3:2]; for APACC access, the
- * SELECT register has more addressing bits.
- * @param RnW false iff outvalue will be written to the DP or AP
- * @param outvalue points to a 32-bit (little-endian) integer
- * @param invalue NULL, or points to a 32-bit (little-endian) integer
- * @param ack points to where the three bit JTAG_ACK_* code will be stored
- */
-static int adi_jtag_dp_scan(struct adiv5_dap *swjdp,
- uint8_t instr, uint8_t reg_addr, uint8_t RnW,
- uint8_t *outvalue, uint8_t *invalue, uint8_t *ack)
-{
- struct arm_jtag *jtag_info = swjdp->jtag_info;
- struct scan_field fields[2];
- uint8_t out_addr_buf;
-
- jtag_set_end_state(TAP_IDLE);
- arm_jtag_set_instr(jtag_info, instr, NULL);
-
- /* Scan out a read or write operation using some DP or AP register.
- * For APACC access with any sticky error flag set, this is discarded.
- */
- fields[0].num_bits = 3;
- buf_set_u32(&out_addr_buf, 0, 3, ((reg_addr >> 1) & 0x6) | (RnW & 0x1));
- fields[0].out_value = &out_addr_buf;
- fields[0].in_value = ack;
-
- /* NOTE: if we receive JTAG_ACK_WAIT, the previous operation did not
- * complete; data we write is discarded, data we read is unpredictable.
- * When overrun detect is active, STICKYORUN is set.
- */
-
- fields[1].num_bits = 32;
- fields[1].out_value = outvalue;
- fields[1].in_value = invalue;
-
- jtag_add_dr_scan(jtag_info->tap, 2, fields, TAP_IDLE);
-
- /* Add specified number of tck clocks after starting memory bus
- * access, giving the hardware time to complete the access.
- * They provide more time for the (MEM) AP to complete the read ...
- * See "Minimum Response Time" for JTAG-DP, in the ADIv5 spec.
- */
- if ((instr == JTAG_DP_APACC)
- && ((reg_addr == AP_REG_DRW)
- || ((reg_addr & 0xF0) == AP_REG_BD0))
- && (swjdp->memaccess_tck != 0))
- jtag_add_runtest(swjdp->memaccess_tck,
- TAP_IDLE);
-
- return jtag_get_error();
-}
-
-/**
- * Scan DPACC or APACC out and in from host ordered uint32_t buffers.
- * This is exactly like adi_jtag_dp_scan(), except that endianness
- * conversions are performed (so the types of invalue and outvalue
- * must be different).
- */
-static int adi_jtag_dp_scan_u32(struct adiv5_dap *swjdp,
- uint8_t instr, uint8_t reg_addr, uint8_t RnW,
- uint32_t outvalue, uint32_t *invalue, uint8_t *ack)
-{
- uint8_t out_value_buf[4];
- int retval;
-
- buf_set_u32(out_value_buf, 0, 32, outvalue);
-
- retval = adi_jtag_dp_scan(swjdp, instr, reg_addr, RnW,
- out_value_buf, (uint8_t *)invalue, ack);
- if (retval != ERROR_OK)
- return retval;
-
- if (invalue)
- jtag_add_callback(arm_le_to_h_u32,
- (jtag_callback_data_t) invalue);
-
- return retval;
-}
-
-/**
- * Utility to write AP registers.
- */
-static inline int adi_jtag_ap_write_check(struct adiv5_dap *dap,
- uint8_t reg_addr, uint8_t *outvalue)
-{
- return adi_jtag_dp_scan(dap, JTAG_DP_APACC, reg_addr, DPAP_WRITE,
- outvalue, NULL, NULL);
-}
-
-static int adi_jtag_scan_inout_check_u32(struct adiv5_dap *swjdp,
- uint8_t instr, uint8_t reg_addr, uint8_t RnW,
- uint32_t outvalue, uint32_t *invalue)
-{
- int retval;
-
- /* Issue the read or write */
- retval = adi_jtag_dp_scan_u32(swjdp, instr, reg_addr,
- RnW, outvalue, NULL, NULL);
- if (retval != ERROR_OK)
- return retval;
-
- /* For reads, collect posted value; RDBUFF has no other effect.
- * Assumes read gets acked with OK/FAULT, and CTRL_STAT says "OK".
- */
- if ((RnW == DPAP_READ) && (invalue != NULL))
- retval = adi_jtag_dp_scan_u32(swjdp, JTAG_DP_DPACC,
- DP_RDBUFF, DPAP_READ, 0, invalue, &swjdp->ack);
- return retval;
-}
-
-static int jtagdp_transaction_endcheck(struct adiv5_dap *swjdp)
-{
- int retval;
- uint32_t ctrlstat;
-
- /* too expensive to call keep_alive() here */
-
-#if 0
- /* Danger!!!! BROKEN!!!! */
- adi_jtag_scan_inout_check_u32(swjdp, JTAG_DP_DPACC,
- DP_CTRL_STAT, DPAP_READ, 0, &ctrlstat);
- /* Danger!!!! BROKEN!!!! Why will jtag_execute_queue() fail here????
- R956 introduced the check on return value here and now Michael Schwingen reports
- that this code no longer works....
-
- https://lists.berlios.de/pipermail/openocd-development/2008-September/003107.html
- */
- if ((retval = jtag_execute_queue()) != ERROR_OK)
- {
- LOG_ERROR("BUG: Why does this fail the first time????");
- }
- /* Why??? second time it works??? */
-#endif
-
- /* Post CTRL/STAT read; discard any previous posted read value
- * but collect its ACK status.
- */
- adi_jtag_scan_inout_check_u32(swjdp, JTAG_DP_DPACC,
- DP_CTRL_STAT, DPAP_READ, 0, &ctrlstat);
- if ((retval = jtag_execute_queue()) != ERROR_OK)
- return retval;
-
- swjdp->ack = swjdp->ack & 0x7;
-
- /* common code path avoids calling timeval_ms() */
- if (swjdp->ack != JTAG_ACK_OK_FAULT)
- {
- long long then = timeval_ms();
-
- while (swjdp->ack != JTAG_ACK_OK_FAULT)
- {
- if (swjdp->ack == JTAG_ACK_WAIT)
- {
- if ((timeval_ms()-then) > 1000)
- {
- /* NOTE: this would be a good spot
- * to use JTAG_DP_ABORT.
- */
- LOG_WARNING("Timeout (1000ms) waiting "
- "for ACK=OK/FAULT "
- "in JTAG-DP transaction");
- return ERROR_JTAG_DEVICE_ERROR;
- }
- }
- else
- {
- LOG_WARNING("Invalid ACK %#x "
- "in JTAG-DP transaction",
- swjdp->ack);
- return ERROR_JTAG_DEVICE_ERROR;
- }
-
- adi_jtag_scan_inout_check_u32(swjdp, JTAG_DP_DPACC,
- DP_CTRL_STAT, DPAP_READ, 0, &ctrlstat);
- if ((retval = dap_run(swjdp)) != ERROR_OK)
- return retval;
- swjdp->ack = swjdp->ack & 0x7;
- }
- }
-
- /* REVISIT also STICKYCMP, for pushed comparisons (nyet used) */
-
- /* Check for STICKYERR and STICKYORUN */
- if (ctrlstat & (SSTICKYORUN | SSTICKYERR))
- {
- LOG_DEBUG("jtag-dp: CTRL/STAT error, 0x%" PRIx32, ctrlstat);
- /* Check power to debug regions */
- if ((ctrlstat & 0xf0000000) != 0xf0000000)
- ahbap_debugport_init(swjdp);
- else
- {
- uint32_t mem_ap_csw, mem_ap_tar;
-
- /* Maybe print information about last intended
- * MEM-AP access; but not if autoincrementing.
- * *Real* CSW and TAR values are always shown.
- */
- if (swjdp->ap_tar_value != (uint32_t) -1)
- LOG_DEBUG("MEM-AP Cached values: "
- "ap_bank 0x%" PRIx32
- ", ap_csw 0x%" PRIx32
- ", ap_tar 0x%" PRIx32,
- swjdp->ap_bank_value,
- swjdp->ap_csw_value,
- swjdp->ap_tar_value);
-
- if (ctrlstat & SSTICKYORUN)
- LOG_ERROR("JTAG-DP OVERRUN - check clock, "
- "memaccess, or reduce jtag speed");
-
- if (ctrlstat & SSTICKYERR)
- LOG_ERROR("JTAG-DP STICKY ERROR");
-
- /* Clear Sticky Error Bits */
- adi_jtag_scan_inout_check_u32(swjdp, JTAG_DP_DPACC,
- DP_CTRL_STAT, DPAP_WRITE,
- swjdp->dp_ctrl_stat | SSTICKYORUN
- | SSTICKYERR, NULL);
- adi_jtag_scan_inout_check_u32(swjdp, JTAG_DP_DPACC,
- DP_CTRL_STAT, DPAP_READ, 0, &ctrlstat);
- if ((retval = dap_run(swjdp)) != ERROR_OK)
- return retval;
-
- LOG_DEBUG("jtag-dp: CTRL/STAT 0x%" PRIx32, ctrlstat);
-
- retval = dap_queue_ap_read(swjdp,
- AP_REG_CSW, &mem_ap_csw);
- if (retval != ERROR_OK)
- return retval;
-
- retval = dap_queue_ap_read(swjdp,
- AP_REG_TAR, &mem_ap_tar);
- if (retval != ERROR_OK)
- return retval;
-
- if ((retval = dap_run(swjdp)) != ERROR_OK)
- return retval;
- LOG_ERROR("MEM_AP_CSW 0x%" PRIx32 ", MEM_AP_TAR 0x%"
- PRIx32, mem_ap_csw, mem_ap_tar);
-
- }
- if ((retval = dap_run(swjdp)) != ERROR_OK)
- return retval;
- return ERROR_JTAG_DEVICE_ERROR;
- }
-
- return ERROR_OK;
-}
-
-/***************************************************************************
- * *
->>>>>>> jtag: cut down on usage of unintended modification of global end state:src/target/arm_adi_v5.c
- * DP and MEM-AP register access through APACC and DPACC *
- * *
-***************************************************************************/
-
-/**
- * Select one of the APs connected to the specified DAP. The
- * selection is implicitly used with future AP transactions.
- * This is a NOP if the specified AP is already selected.
- *
- * @param swjdp The DAP
- * @param apsel Number of the AP to (implicitly) use with further
- * transactions. This normally identifies a MEM-AP.
- */
-void dap_ap_select(struct adiv5_dap *swjdp,uint8_t apsel)
-{
- uint32_t select = (apsel << 24) & 0xFF000000;
-
- if (select != swjdp->apsel)
- {
- swjdp->apsel = select;
- /* Switching AP invalidates cached values.
- * Values MUST BE UPDATED BEFORE AP ACCESS.
- */
- swjdp->ap_bank_value = -1;
- swjdp->ap_csw_value = -1;
- swjdp->ap_tar_value = -1;
- }
-}
-
-/**
- * Queue transactions setting up transfer parameters for the
- * currently selected MEM-AP.
- *
- * Subsequent transfers using registers like AP_REG_DRW or AP_REG_BD2
- * initiate data reads or writes using memory or peripheral addresses.
- * If the CSW is configured for it, the TAR may be automatically
- * incremented after each transfer.
- *
- * @todo Rename to reflect it being specifically a MEM-AP function.
- *
- * @param swjdp The DAP connected to the MEM-AP.
- * @param csw MEM-AP Control/Status Word (CSW) register to assign. If this
- * matches the cached value, the register is not changed.
- * @param tar MEM-AP Transfer Address Register (TAR) to assign. If this
- * matches the cached address, the register is not changed.
- *
- * @return ERROR_OK if the transaction was properly queued, else a fault code.
- */
-int dap_setup_accessport(struct adiv5_dap *swjdp, uint32_t csw, uint32_t tar)
-{
- int retval;
-
- csw = csw | CSW_DBGSWENABLE | CSW_MASTER_DEBUG | CSW_HPROT;
- if (csw != swjdp->ap_csw_value)
- {
- /* LOG_DEBUG("DAP: Set CSW %x",csw); */
- retval = dap_queue_ap_write(swjdp, AP_REG_CSW, csw);
- if (retval != ERROR_OK)
- return retval;
- swjdp->ap_csw_value = csw;
- }
- if (tar != swjdp->ap_tar_value)
- {
- /* LOG_DEBUG("DAP: Set TAR %x",tar); */
- retval = dap_queue_ap_write(swjdp, AP_REG_TAR, tar);
- if (retval != ERROR_OK)
- return retval;
- swjdp->ap_tar_value = tar;
- }
- /* Disable TAR cache when autoincrementing */
- if (csw & CSW_ADDRINC_MASK)
- swjdp->ap_tar_value = -1;
- return ERROR_OK;
-}
-
-/**
- * Asynchronous (queued) read of a word from memory or a system register.
- *
- * @param swjdp The DAP connected to the MEM-AP performing the read.
- * @param address Address of the 32-bit word to read; it must be
- * readable by the currently selected MEM-AP.
- * @param value points to where the word will be stored when the
- * transaction queue is flushed (assuming no errors).
- *
- * @return ERROR_OK for success. Otherwise a fault code.
- */
-int mem_ap_read_u32(struct adiv5_dap *swjdp, uint32_t address,
- uint32_t *value)
-{
- int retval;
-
- /* Use banked addressing (REG_BDx) to avoid some link traffic
- * (updating TAR) when reading several consecutive addresses.
- */
- retval = dap_setup_accessport(swjdp, CSW_32BIT | CSW_ADDRINC_OFF,
- address & 0xFFFFFFF0);
- if (retval != ERROR_OK)
- return retval;
-
- return dap_queue_ap_read(swjdp, AP_REG_BD0 | (address & 0xC), value);
-}
-
-/**
- * Synchronous read of a word from memory or a system register.
- * As a side effect, this flushes any queued transactions.
- *
- * @param swjdp The DAP connected to the MEM-AP performing the read.
- * @param address Address of the 32-bit word to read; it must be
- * readable by the currently selected MEM-AP.
- * @param value points to where the result will be stored.
- *
- * @return ERROR_OK for success; *value holds the result.
- * Otherwise a fault code.
- */
-int mem_ap_read_atomic_u32(struct adiv5_dap *swjdp, uint32_t address,
- uint32_t *value)
-{
- int retval;
-
- retval = mem_ap_read_u32(swjdp, address, value);
- if (retval != ERROR_OK)
- return retval;
-
- return dap_run(swjdp);
-}
-
-/**
- * Asynchronous (queued) write of a word to memory or a system register.
- *
- * @param swjdp The DAP connected to the MEM-AP.
- * @param address Address to be written; it must be writable by
- * the currently selected MEM-AP.
- * @param value Word that will be written to the address when transaction
- * queue is flushed (assuming no errors).
- *
- * @return ERROR_OK for success. Otherwise a fault code.
- */
-int mem_ap_write_u32(struct adiv5_dap *swjdp, uint32_t address,
- uint32_t value)
-{
- int retval;
-
- /* Use banked addressing (REG_BDx) to avoid some link traffic
- * (updating TAR) when writing several consecutive addresses.
- */
- retval = dap_setup_accessport(swjdp, CSW_32BIT | CSW_ADDRINC_OFF,
- address & 0xFFFFFFF0);
- if (retval != ERROR_OK)
- return retval;
-
- return dap_queue_ap_write(swjdp, AP_REG_BD0 | (address & 0xC),
- value);
-}
-
-/**
- * Synchronous write of a word to memory or a system register.
- * As a side effect, this flushes any queued transactions.
- *
- * @param swjdp The DAP connected to the MEM-AP.
- * @param address Address to be written; it must be writable by
- * the currently selected MEM-AP.
- * @param value Word that will be written.
- *
- * @return ERROR_OK for success; the data was written. Otherwise a fault code.
- */
-int mem_ap_write_atomic_u32(struct adiv5_dap *swjdp, uint32_t address,
- uint32_t value)
-{
- int retval = mem_ap_write_u32(swjdp, address, value);
-
- if (retval != ERROR_OK)
- return retval;
-
- return dap_run(swjdp);
-}
-
-/*****************************************************************************
-* *
-* mem_ap_write_buf(struct adiv5_dap *swjdp, uint8_t *buffer, int count, uint32_t address) *
-* *
-* Write a buffer in target order (little endian) *
-* *
-*****************************************************************************/
-int mem_ap_write_buf_u32(struct adiv5_dap *swjdp, uint8_t *buffer, int count, uint32_t address)
-{
- int wcount, blocksize, writecount, errorcount = 0, retval = ERROR_OK;
- uint32_t adr = address;
- uint8_t* pBuffer = buffer;
-
- count >>= 2;
- wcount = count;
-
- /* if we have an unaligned access - reorder data */
- if (adr & 0x3u)
- {
- for (writecount = 0; writecount < count; writecount++)
- {
- int i;
- uint32_t outvalue;
- memcpy(&outvalue, pBuffer, sizeof(uint32_t));
-
- for (i = 0; i < 4; i++)
- {
- *((uint8_t*)pBuffer + (adr & 0x3)) = outvalue;
- outvalue >>= 8;
- adr++;
- }
- pBuffer += sizeof(uint32_t);
- }
- }
-
- while (wcount > 0)
- {
- /* Adjust to write blocks within boundaries aligned to the TAR autoincremnent size*/
- blocksize = max_tar_block_size(swjdp->tar_autoincr_block, address);
- if (wcount < blocksize)
- blocksize = wcount;
-
- /* handle unaligned data at 4k boundary */
- if (blocksize == 0)
- blocksize = 1;
-
- dap_setup_accessport(swjdp, CSW_32BIT | CSW_ADDRINC_SINGLE, address);
-
- for (writecount = 0; writecount < blocksize; writecount++)
- {
- retval = dap_queue_ap_write(swjdp, AP_REG_DRW,
- *(uint32_t *) (buffer + 4 * writecount));
- if (retval != ERROR_OK)
- break;
- }
-
- if (dap_run(swjdp) == ERROR_OK)
- {
- wcount = wcount - blocksize;
- address = address + 4 * blocksize;
- buffer = buffer + 4 * blocksize;
- }
- else
- {
- errorcount++;
- }
-
- if (errorcount > 1)
- {
- LOG_WARNING("Block write error address 0x%" PRIx32 ", wcount 0x%x", address, wcount);
- /* REVISIT return the *actual* fault code */
- return ERROR_JTAG_DEVICE_ERROR;
- }
- }
-
- return retval;
-}
-
-static int mem_ap_write_buf_packed_u16(struct adiv5_dap *swjdp,
- uint8_t *buffer, int count, uint32_t address)
-{
- int retval = ERROR_OK;
- int wcount, blocksize, writecount, i;
-
- wcount = count >> 1;
-
- while (wcount > 0)
- {
- int nbytes;
-
- /* Adjust to write blocks within boundaries aligned to the TAR autoincremnent size*/
- blocksize = max_tar_block_size(swjdp->tar_autoincr_block, address);
-
- if (wcount < blocksize)
- blocksize = wcount;
-
- /* handle unaligned data at 4k boundary */
- if (blocksize == 0)
- blocksize = 1;
-
- dap_setup_accessport(swjdp, CSW_16BIT | CSW_ADDRINC_PACKED, address);
- writecount = blocksize;
-
- do
- {
- nbytes = MIN((writecount << 1), 4);
-
- if (nbytes < 4)
- {
- if (mem_ap_write_buf_u16(swjdp, buffer,
- nbytes, address) != ERROR_OK)
- {
- LOG_WARNING("Block write error address "
- "0x%" PRIx32 ", count 0x%x",
- address, count);
- return ERROR_JTAG_DEVICE_ERROR;
- }
-
- address += nbytes >> 1;
- }
- else
- {
- uint32_t outvalue;
- memcpy(&outvalue, buffer, sizeof(uint32_t));
-
- for (i = 0; i < nbytes; i++)
- {
- *((uint8_t*)buffer + (address & 0x3)) = outvalue;
- outvalue >>= 8;
- address++;
- }
-
- memcpy(&outvalue, buffer, sizeof(uint32_t));
- retval = dap_queue_ap_write(swjdp,
- AP_REG_DRW, outvalue);
- if (retval != ERROR_OK)
- break;
-
- if (dap_run(swjdp) != ERROR_OK)
- {
- LOG_WARNING("Block write error address "
- "0x%" PRIx32 ", count 0x%x",
- address, count);
- /* REVISIT return *actual* fault code */
- return ERROR_JTAG_DEVICE_ERROR;
- }
- }
-
- buffer += nbytes >> 1;
- writecount -= nbytes >> 1;
-
- } while (writecount);
- wcount -= blocksize;
- }
-
- return retval;
-}
-
-int mem_ap_write_buf_u16(struct adiv5_dap *swjdp, uint8_t *buffer, int count, uint32_t address)
-{
- int retval = ERROR_OK;
-
- if (count >= 4)
- return mem_ap_write_buf_packed_u16(swjdp, buffer, count, address);
-
- while (count > 0)
- {
- dap_setup_accessport(swjdp, CSW_16BIT | CSW_ADDRINC_SINGLE, address);
- uint16_t svalue;
- memcpy(&svalue, buffer, sizeof(uint16_t));
- uint32_t outvalue = (uint32_t)svalue << 8 * (address & 0x3);
- retval = dap_queue_ap_write(swjdp, AP_REG_DRW, outvalue);
- if (retval != ERROR_OK)
- break;
-
- retval = dap_run(swjdp);
- if (retval != ERROR_OK)
- break;
-
- count -= 2;
- address += 2;
- buffer += 2;
- }
-
- return retval;
-}
-
-static int mem_ap_write_buf_packed_u8(struct adiv5_dap *swjdp,
- uint8_t *buffer, int count, uint32_t address)
-{
- int retval = ERROR_OK;
- int wcount, blocksize, writecount, i;
-
- wcount = count;
-
- while (wcount > 0)
- {
- int nbytes;
-
- /* Adjust to write blocks within boundaries aligned to the TAR autoincremnent size*/
- blocksize = max_tar_block_size(swjdp->tar_autoincr_block, address);
-
- if (wcount < blocksize)
- blocksize = wcount;
-
- dap_setup_accessport(swjdp, CSW_8BIT | CSW_ADDRINC_PACKED, address);
- writecount = blocksize;
-
- do
- {
- nbytes = MIN(writecount, 4);
-
- if (nbytes < 4)
- {
- if (mem_ap_write_buf_u8(swjdp, buffer, nbytes, address) != ERROR_OK)
- {
- LOG_WARNING("Block write error address "
- "0x%" PRIx32 ", count 0x%x",
- address, count);
- return ERROR_JTAG_DEVICE_ERROR;
- }
-
- address += nbytes;
- }
- else
- {
- uint32_t outvalue;
- memcpy(&outvalue, buffer, sizeof(uint32_t));
-
- for (i = 0; i < nbytes; i++)
- {
- *((uint8_t*)buffer + (address & 0x3)) = outvalue;
- outvalue >>= 8;
- address++;
- }
-
- memcpy(&outvalue, buffer, sizeof(uint32_t));
- retval = dap_queue_ap_write(swjdp,
- AP_REG_DRW, outvalue);
- if (retval != ERROR_OK)
- break;
-
- if (dap_run(swjdp) != ERROR_OK)
- {
- LOG_WARNING("Block write error address "
- "0x%" PRIx32 ", count 0x%x",
- address, count);
- /* REVISIT return *actual* fault code */
- return ERROR_JTAG_DEVICE_ERROR;
- }
- }
-
- buffer += nbytes;
- writecount -= nbytes;
-
- } while (writecount);
- wcount -= blocksize;
- }
-
- return retval;
-}
-
-int mem_ap_write_buf_u8(struct adiv5_dap *swjdp, uint8_t *buffer, int count, uint32_t address)
-{
- int retval = ERROR_OK;
-
- if (count >= 4)
- return mem_ap_write_buf_packed_u8(swjdp, buffer, count, address);
-
- while (count > 0)
- {
- dap_setup_accessport(swjdp, CSW_8BIT | CSW_ADDRINC_SINGLE, address);
- uint32_t outvalue = (uint32_t)*buffer << 8 * (address & 0x3);
- retval = dap_queue_ap_write(swjdp, AP_REG_DRW, outvalue);
- if (retval != ERROR_OK)
- break;
-
- retval = dap_run(swjdp);
- if (retval != ERROR_OK)
- break;
-
- count--;
- address++;
- buffer++;
- }
-
- return retval;
-}
-
-/* FIXME don't import ... this is a temporary workaround for the
- * mem_ap_read_buf_u32() mess, until it's no longer JTAG-specific.
- */
-extern int adi_jtag_dp_scan(struct adiv5_dap *swjdp,
- uint8_t instr, uint8_t reg_addr, uint8_t RnW,
- uint8_t *outvalue, uint8_t *invalue, uint8_t *ack);
-
-/**
- * Synchronously read a block of 32-bit words into a buffer
- * @param swjdp The DAP connected to the MEM-AP.
- * @param buffer where the words will be stored (in host byte order).
- * @param count How many words to read.
- * @param address Memory address from which to read words; all the
- * words must be readable by the currently selected MEM-AP.
- */
-int mem_ap_read_buf_u32(struct adiv5_dap *swjdp, uint8_t *buffer,
- int count, uint32_t address)
-{
- int wcount, blocksize, readcount, errorcount = 0, retval = ERROR_OK;
- uint32_t adr = address;
- uint8_t* pBuffer = buffer;
-
- count >>= 2;
- wcount = count;
-
- while (wcount > 0)
- {
- /* Adjust to read blocks within boundaries aligned to the
- * TAR autoincrement size (at least 2^10). Autoincrement
- * mode avoids an extra per-word roundtrip to update TAR.
- */
- blocksize = max_tar_block_size(swjdp->tar_autoincr_block,
- address);
- if (wcount < blocksize)
- blocksize = wcount;
-
- /* handle unaligned data at 4k boundary */
- if (blocksize == 0)
- blocksize = 1;
-
- dap_setup_accessport(swjdp, CSW_32BIT | CSW_ADDRINC_SINGLE,
- address);
-
- /* FIXME remove these three calls to adi_jtag_dp_scan(),
- * so this routine becomes transport-neutral. Be careful
- * not to cause performance problems with JTAG; would it
- * suffice to loop over dap_queue_ap_read(), or would that
- * be slower when JTAG is the chosen transport?
- */
-
- /* Scan out first read */
- adi_jtag_dp_scan(swjdp, JTAG_DP_APACC, AP_REG_DRW,
- DPAP_READ, 0, NULL, NULL);
- for (readcount = 0; readcount < blocksize - 1; readcount++)
- {
- /* Scan out next read; scan in posted value for the
- * previous one. Assumes read is acked "OK/FAULT",
- * and CTRL_STAT says that meant "OK".
- */
- adi_jtag_dp_scan(swjdp, JTAG_DP_APACC, AP_REG_DRW,
- DPAP_READ, 0, buffer + 4 * readcount,
- &swjdp->ack);
- }
-
- /* Scan in last posted value; RDBUFF has no other effect,
- * assuming ack is OK/FAULT and CTRL_STAT says "OK".
- */
- adi_jtag_dp_scan(swjdp, JTAG_DP_DPACC, DP_RDBUFF,
- DPAP_READ, 0, buffer + 4 * readcount,
- &swjdp->ack);
- if (dap_run(swjdp) == ERROR_OK)
- {
- wcount = wcount - blocksize;
- address += 4 * blocksize;
- buffer += 4 * blocksize;
- }
- else
- {
- errorcount++;
- }
-
- if (errorcount > 1)
- {
- LOG_WARNING("Block read error address 0x%" PRIx32
- ", count 0x%x", address, count);
- /* REVISIT return the *actual* fault code */
- return ERROR_JTAG_DEVICE_ERROR;
- }
- }
-
- /* if we have an unaligned access - reorder data */
- if (adr & 0x3u)
- {
- for (readcount = 0; readcount < count; readcount++)
- {
- int i;
- uint32_t data;
- memcpy(&data, pBuffer, sizeof(uint32_t));
-
- for (i = 0; i < 4; i++)
- {
- *((uint8_t*)pBuffer) =
- (data >> 8 * (adr & 0x3));
- pBuffer++;
- adr++;
- }
- }
- }
-
- return retval;
-}
-
-static int mem_ap_read_buf_packed_u16(struct adiv5_dap *swjdp,
- uint8_t *buffer, int count, uint32_t address)
-{
- uint32_t invalue;
- int retval = ERROR_OK;
- int wcount, blocksize, readcount, i;
-
- wcount = count >> 1;
-
- while (wcount > 0)
- {
- int nbytes;
-
- /* Adjust to read blocks within boundaries aligned to the TAR autoincremnent size*/
- blocksize = max_tar_block_size(swjdp->tar_autoincr_block, address);
- if (wcount < blocksize)
- blocksize = wcount;
-
- dap_setup_accessport(swjdp, CSW_16BIT | CSW_ADDRINC_PACKED, address);
-
- /* handle unaligned data at 4k boundary */
- if (blocksize == 0)
- blocksize = 1;
- readcount = blocksize;
-
- do
- {
- retval = dap_queue_ap_read(swjdp, AP_REG_DRW, &invalue);
- if (dap_run(swjdp) != ERROR_OK)
- {
- LOG_WARNING("Block read error address 0x%" PRIx32 ", count 0x%x", address, count);
- /* REVISIT return the *actual* fault code */
- return ERROR_JTAG_DEVICE_ERROR;
- }
-
- nbytes = MIN((readcount << 1), 4);
-
- for (i = 0; i < nbytes; i++)
- {
- *((uint8_t*)buffer) = (invalue >> 8 * (address & 0x3));
- buffer++;
- address++;
- }
-
- readcount -= (nbytes >> 1);
- } while (readcount);
- wcount -= blocksize;
- }
-
- return retval;
-}
-
-/**
- * Synchronously read a block of 16-bit halfwords into a buffer
- * @param swjdp The DAP connected to the MEM-AP.
- * @param buffer where the halfwords will be stored (in host byte order).
- * @param count How many halfwords to read.
- * @param address Memory address from which to read words; all the
- * words must be readable by the currently selected MEM-AP.
- */
-int mem_ap_read_buf_u16(struct adiv5_dap *swjdp, uint8_t *buffer,
- int count, uint32_t address)
-{
- uint32_t invalue, i;
- int retval = ERROR_OK;
-
- if (count >= 4)
- return mem_ap_read_buf_packed_u16(swjdp, buffer, count, address);
-
- while (count > 0)
- {
- dap_setup_accessport(swjdp, CSW_16BIT | CSW_ADDRINC_SINGLE, address);
- retval = dap_queue_ap_read(swjdp, AP_REG_DRW, &invalue);
- if (retval != ERROR_OK)
- break;
-
- retval = dap_run(swjdp);
- if (retval != ERROR_OK)
- break;
-
- if (address & 0x1)
- {
- for (i = 0; i < 2; i++)
- {
- *((uint8_t*)buffer) = (invalue >> 8 * (address & 0x3));
- buffer++;
- address++;
- }
- }
- else
- {
- uint16_t svalue = (invalue >> 8 * (address & 0x3));
- memcpy(buffer, &svalue, sizeof(uint16_t));
- address += 2;
- buffer += 2;
- }
- count -= 2;
- }
-
- return retval;
-}
-
-/* FIX!!! is this a potential performance bottleneck w.r.t. requiring too many
- * roundtrips when jtag_execute_queue() has a large overhead(e.g. for USB)s?
- *
- * The solution is to arrange for a large out/in scan in this loop and
- * and convert data afterwards.
- */
-static int mem_ap_read_buf_packed_u8(struct adiv5_dap *swjdp,
- uint8_t *buffer, int count, uint32_t address)
-{
- uint32_t invalue;
- int retval = ERROR_OK;
- int wcount, blocksize, readcount, i;
-
- wcount = count;
-
- while (wcount > 0)
- {
- int nbytes;
-
- /* Adjust to read blocks within boundaries aligned to the TAR autoincremnent size*/
- blocksize = max_tar_block_size(swjdp->tar_autoincr_block, address);
-
- if (wcount < blocksize)
- blocksize = wcount;
-
- dap_setup_accessport(swjdp, CSW_8BIT | CSW_ADDRINC_PACKED, address);
- readcount = blocksize;
-
- do
- {
- retval = dap_queue_ap_read(swjdp, AP_REG_DRW, &invalue);
- if (dap_run(swjdp) != ERROR_OK)
- {
- LOG_WARNING("Block read error address 0x%" PRIx32 ", count 0x%x", address, count);
- /* REVISIT return the *actual* fault code */
- return ERROR_JTAG_DEVICE_ERROR;
- }
-
- nbytes = MIN(readcount, 4);
-
- for (i = 0; i < nbytes; i++)
- {
- *((uint8_t*)buffer) = (invalue >> 8 * (address & 0x3));
- buffer++;
- address++;
- }
-
- readcount -= nbytes;
- } while (readcount);
- wcount -= blocksize;
- }
-
- return retval;
-}
-
-/**
- * Synchronously read a block of bytes into a buffer
- * @param swjdp The DAP connected to the MEM-AP.
- * @param buffer where the bytes will be stored.
- * @param count How many bytes to read.
- * @param address Memory address from which to read data; all the
- * data must be readable by the currently selected MEM-AP.
- */
-int mem_ap_read_buf_u8(struct adiv5_dap *swjdp, uint8_t *buffer,
- int count, uint32_t address)
-{
- uint32_t invalue;
- int retval = ERROR_OK;
-
- if (count >= 4)
- return mem_ap_read_buf_packed_u8(swjdp, buffer, count, address);
-
- while (count > 0)
- {
- dap_setup_accessport(swjdp, CSW_8BIT | CSW_ADDRINC_SINGLE, address);
- retval = dap_queue_ap_read(swjdp, AP_REG_DRW, &invalue);
- retval = dap_run(swjdp);
- if (retval != ERROR_OK)
- break;
-
- *((uint8_t*)buffer) = (invalue >> 8 * (address & 0x3));
- count--;
- address++;
- buffer++;
- }
-
- return retval;
-}
-
-/*--------------------------------------------------------------------------*/
-
-<<<<<<< HEAD:src/target/arm_adi_v5.c
-=======
-static int jtag_idcode_q_read(struct adiv5_dap *dap,
- uint8_t *ack, uint32_t *data)
-{
- struct arm_jtag *jtag_info = dap->jtag_info;
- int retval;
- struct scan_field fields[1];
-
- jtag_set_end_state(TAP_IDLE);
-
- /* This is a standard JTAG operation -- no DAP tweakage */
- retval = arm_jtag_set_instr(jtag_info, JTAG_DP_IDCODE, NULL);
- if (retval != ERROR_OK)
- return retval;
-
- fields[0].num_bits = 32;
- fields[0].out_value = NULL;
- fields[0].in_value = (void *) data;
-
- jtag_add_dr_scan(jtag_info->tap, 1, fields, TAP_IDLE);
- retval = jtag_get_error();
- if (retval != ERROR_OK)
- return retval;
-
- jtag_add_callback(arm_le_to_h_u32,
- (jtag_callback_data_t) data);
-
- return retval;
-}
-
-static int jtag_dp_q_read(struct adiv5_dap *dap, unsigned reg,
- uint32_t *data)
-{
- return adi_jtag_scan_inout_check_u32(dap, JTAG_DP_DPACC,
- reg, DPAP_READ, 0, data);
-}
-
-static int jtag_dp_q_write(struct adiv5_dap *dap, unsigned reg,
- uint32_t data)
-{
- return adi_jtag_scan_inout_check_u32(dap, JTAG_DP_DPACC,
- reg, DPAP_WRITE, data, NULL);
-}
-
-/** Select the AP register bank matching bits 7:4 of reg. */
-static int jtag_ap_q_bankselect(struct adiv5_dap *dap, unsigned reg)
-{
- uint32_t select = reg & 0x000000F0;
-
- if (select == dap->ap_bank_value)
- return ERROR_OK;
- dap->ap_bank_value = select;
-
- select |= dap->apsel;
-
- return jtag_dp_q_write(dap, DP_SELECT, select);
-}
-
-static int jtag_ap_q_read(struct adiv5_dap *dap, unsigned reg,
- uint32_t *data)
-{
- int retval = jtag_ap_q_bankselect(dap, reg);
-
- if (retval != ERROR_OK)
- return retval;
-
- return adi_jtag_scan_inout_check_u32(dap, JTAG_DP_APACC, reg,
- DPAP_READ, 0, data);
-}
-
-static int jtag_ap_q_write(struct adiv5_dap *dap, unsigned reg,
- uint32_t data)
-{
- uint8_t out_value_buf[4];
-
- int retval = jtag_ap_q_bankselect(dap, reg);
- if (retval != ERROR_OK)
- return retval;
->>>>>>> jtag: cut down on usage of unintended modification of global end state:src/target/arm_adi_v5.c
-
-/* FIXME don't import ... just initialize as
- * part of DAP transport setup
-*/
-extern const struct dap_ops jtag_dp_ops;
-
-/*--------------------------------------------------------------------------*/
-
-/**
- * Initialize a DAP. This sets up the power domains, prepares the DP
- * for further use, and arranges to use AP #0 for all AP operations
- * until dap_ap-select() changes that policy.
- *
- * @param swjdp The DAP being initialized.
- *
- * @todo Rename this. We also need an initialization scheme which account
- * for SWD transports not just JTAG; that will need to address differences
- * in layering. (JTAG is useful without any debug target; but not SWD.)
- * And this may not even use an AHB-AP ... e.g. DAP-Lite uses an APB-AP.
- */
-int ahbap_debugport_init(struct adiv5_dap *swjdp)
-{
- uint32_t idreg, romaddr, dummy;
- uint32_t ctrlstat;
- int cnt = 0;
- int retval;
-
- LOG_DEBUG(" ");
-
- /* JTAG-DP or SWJ-DP, in JTAG mode */
- swjdp->ops = &jtag_dp_ops;
-
- /* Default MEM-AP setup.
- *
- * REVISIT AP #0 may be an inappropriate default for this.
- * Should we probe, or take a hint from the caller?
- * Presumably we can ignore the possibility of multiple APs.
- */
- swjdp->apsel = !0;
- dap_ap_select(swjdp, 0);
-
- /* DP initialization */
-
- retval = dap_queue_dp_read(swjdp, DP_CTRL_STAT, &dummy);
- if (retval != ERROR_OK)
- return retval;
-
- retval = dap_queue_dp_write(swjdp, DP_CTRL_STAT, SSTICKYERR);
- if (retval != ERROR_OK)
- return retval;
-
- retval = dap_queue_dp_read(swjdp, DP_CTRL_STAT, &dummy);
- if (retval != ERROR_OK)
- return retval;
-
- swjdp->dp_ctrl_stat = CDBGPWRUPREQ | CSYSPWRUPREQ;
- retval = dap_queue_dp_write(swjdp, DP_CTRL_STAT, swjdp->dp_ctrl_stat);
- if (retval != ERROR_OK)
- return retval;
-
- retval = dap_queue_dp_read(swjdp, DP_CTRL_STAT, &ctrlstat);
- if (retval != ERROR_OK)
- return retval;
- if ((retval = dap_run(swjdp)) != ERROR_OK)
- return retval;
-
- /* Check that we have debug power domains activated */
- while (!(ctrlstat & CDBGPWRUPACK) && (cnt++ < 10))
- {
- LOG_DEBUG("DAP: wait CDBGPWRUPACK");
- retval = dap_queue_dp_read(swjdp, DP_CTRL_STAT, &ctrlstat);
- if (retval != ERROR_OK)
- return retval;
- if ((retval = dap_run(swjdp)) != ERROR_OK)
- return retval;
- alive_sleep(10);
- }
-
- while (!(ctrlstat & CSYSPWRUPACK) && (cnt++ < 10))
- {
- LOG_DEBUG("DAP: wait CSYSPWRUPACK");
- retval = dap_queue_dp_read(swjdp, DP_CTRL_STAT, &ctrlstat);
- if (retval != ERROR_OK)
- return retval;
- if ((retval = dap_run(swjdp)) != ERROR_OK)
- return retval;
- alive_sleep(10);
- }
-
- retval = dap_queue_dp_read(swjdp, DP_CTRL_STAT, &dummy);
- if (retval != ERROR_OK)
- return retval;
- /* With debug power on we can activate OVERRUN checking */
- swjdp->dp_ctrl_stat = CDBGPWRUPREQ | CSYSPWRUPREQ | CORUNDETECT;
- retval = dap_queue_dp_write(swjdp, DP_CTRL_STAT, swjdp->dp_ctrl_stat);
- if (retval != ERROR_OK)
- return retval;
- retval = dap_queue_dp_read(swjdp, DP_CTRL_STAT, &dummy);
- if (retval != ERROR_OK)
- return retval;
-
- /*
- * REVISIT this isn't actually *initializing* anything in an AP,
- * and doesn't care if it's a MEM-AP at all (much less AHB-AP).
- * Should it? If the ROM address is valid, is this the right
- * place to scan the table and do any topology detection?
- */
- retval = dap_queue_ap_read(swjdp, AP_REG_IDR, &idreg);
- retval = dap_queue_ap_read(swjdp, AP_REG_BASE, &romaddr);
-
- LOG_DEBUG("MEM-AP #%d ID Register 0x%" PRIx32
- ", Debug ROM Address 0x%" PRIx32,
- swjdp->apsel, idreg, romaddr);
-
- return ERROR_OK;
-}
-
-/* CID interpretation -- see ARM IHI 0029B section 3
- * and ARM IHI 0031A table 13-3.
- */
-static const char *class_description[16] ={
- "Reserved", "ROM table", "Reserved", "Reserved",
- "Reserved", "Reserved", "Reserved", "Reserved",
- "Reserved", "CoreSight component", "Reserved", "Peripheral Test Block",
- "Reserved", "OptimoDE DESS",
- "Generic IP component", "PrimeCell or System component"
-};
-
-static bool
-is_dap_cid_ok(uint32_t cid3, uint32_t cid2, uint32_t cid1, uint32_t cid0)
-{
- return cid3 == 0xb1 && cid2 == 0x05
- && ((cid1 & 0x0f) == 0) && cid0 == 0x0d;
-}
-
-static int dap_info_command(struct command_context *cmd_ctx,
- struct adiv5_dap *swjdp, int apsel)
-{
- int retval;
- uint32_t dbgbase, apid;
- int romtable_present = 0;
- uint8_t mem_ap;
- uint32_t apselold;
-
- /* AP address is in bits 31:24 of DP_SELECT */
- if (apsel >= 256)
- return ERROR_INVALID_ARGUMENTS;
-
- apselold = swjdp->apsel;
- dap_ap_select(swjdp, apsel);
- retval = dap_queue_ap_read(swjdp, AP_REG_BASE, &dbgbase);
- retval = dap_queue_ap_read(swjdp, AP_REG_IDR, &apid);
- retval = dap_run(swjdp);
- if (retval != ERROR_OK)
- return retval;
-
- /* Now we read ROM table ID registers, ref. ARM IHI 0029B sec */
- mem_ap = ((apid&0x10000) && ((apid&0x0F) != 0));
- command_print(cmd_ctx, "AP ID register 0x%8.8" PRIx32, apid);
- if (apid)
- {
- switch (apid&0x0F)
- {
- case 0:
- command_print(cmd_ctx, "\tType is JTAG-AP");
- break;
- case 1:
- command_print(cmd_ctx, "\tType is MEM-AP AHB");
- break;
- case 2:
- command_print(cmd_ctx, "\tType is MEM-AP APB");
- break;
- default:
- command_print(cmd_ctx, "\tUnknown AP type");
- break;
- }
-
- /* NOTE: a MEM-AP may have a single CoreSight component that's
- * not a ROM table ... or have no such components at all.
- */
- if (mem_ap)
- command_print(cmd_ctx, "AP BASE 0x%8.8" PRIx32,
- dbgbase);
- }
- else
- {
- command_print(cmd_ctx, "No AP found at this apsel 0x%x", apsel);
- }
-
- romtable_present = ((mem_ap) && (dbgbase != 0xFFFFFFFF));
- if (romtable_present)
- {
- uint32_t cid0,cid1,cid2,cid3,memtype,romentry;
- uint16_t entry_offset;
-
- /* bit 16 of apid indicates a memory access port */
- if (dbgbase & 0x02)
- command_print(cmd_ctx, "\tValid ROM table present");
- else
- command_print(cmd_ctx, "\tROM table in legacy format");
-
- /* Now we read ROM table ID registers, ref. ARM IHI 0029B sec */
- mem_ap_read_u32(swjdp, (dbgbase&0xFFFFF000) | 0xFF0, &cid0);
- mem_ap_read_u32(swjdp, (dbgbase&0xFFFFF000) | 0xFF4, &cid1);
- mem_ap_read_u32(swjdp, (dbgbase&0xFFFFF000) | 0xFF8, &cid2);
- mem_ap_read_u32(swjdp, (dbgbase&0xFFFFF000) | 0xFFC, &cid3);
- mem_ap_read_u32(swjdp, (dbgbase&0xFFFFF000) | 0xFCC, &memtype);
- retval = dap_run(swjdp);
- if (retval != ERROR_OK)
- return retval;
-
- if (!is_dap_cid_ok(cid3, cid2, cid1, cid0))
- command_print(cmd_ctx, "\tCID3 0x%2.2" PRIx32
- ", CID2 0x%2.2" PRIx32
- ", CID1 0x%2.2" PRIx32
- ", CID0 0x%2.2" PRIx32,
- cid3, cid2, cid1, cid0);
- if (memtype & 0x01)
- command_print(cmd_ctx, "\tMEMTYPE system memory present on bus");
- else
- command_print(cmd_ctx, "\tMEMTYPE System memory not present. "
- "Dedicated debug bus.");
-
- /* Now we read ROM table entries from dbgbase&0xFFFFF000) | 0x000 until we get 0x00000000 */
- entry_offset = 0;
- do
- {
- mem_ap_read_atomic_u32(swjdp, (dbgbase&0xFFFFF000) | entry_offset, &romentry);
- command_print(cmd_ctx, "\tROMTABLE[0x%x] = 0x%" PRIx32 "",entry_offset,romentry);
- if (romentry&0x01)
- {
- uint32_t c_cid0, c_cid1, c_cid2, c_cid3;
- uint32_t c_pid0, c_pid1, c_pid2, c_pid3, c_pid4;
- uint32_t component_start, component_base;
- unsigned part_num;
- char *type, *full;
-
- component_base = (uint32_t)((dbgbase & 0xFFFFF000)
- + (int)(romentry & 0xFFFFF000));
- mem_ap_read_atomic_u32(swjdp,
- (component_base & 0xFFFFF000) | 0xFE0, &c_pid0);
- mem_ap_read_atomic_u32(swjdp,
- (component_base & 0xFFFFF000) | 0xFE4, &c_pid1);
- mem_ap_read_atomic_u32(swjdp,
- (component_base & 0xFFFFF000) | 0xFE8, &c_pid2);
- mem_ap_read_atomic_u32(swjdp,
- (component_base & 0xFFFFF000) | 0xFEC, &c_pid3);
- mem_ap_read_atomic_u32(swjdp,
- (component_base & 0xFFFFF000) | 0xFD0, &c_pid4);
- mem_ap_read_atomic_u32(swjdp,
- (component_base & 0xFFFFF000) | 0xFF0, &c_cid0);
- mem_ap_read_atomic_u32(swjdp,
- (component_base & 0xFFFFF000) | 0xFF4, &c_cid1);
- mem_ap_read_atomic_u32(swjdp,
- (component_base & 0xFFFFF000) | 0xFF8, &c_cid2);
- mem_ap_read_atomic_u32(swjdp,
- (component_base & 0xFFFFF000) | 0xFFC, &c_cid3);
- component_start = component_base - 0x1000*(c_pid4 >> 4);
-
- command_print(cmd_ctx, "\t\tComponent base address 0x%" PRIx32
- ", start address 0x%" PRIx32,
- component_base, component_start);
- command_print(cmd_ctx, "\t\tComponent class is 0x%x, %s",
- (int) (c_cid1 >> 4) & 0xf,
- /* See ARM IHI 0029B Table 3-3 */
- class_description[(c_cid1 >> 4) & 0xf]);
-
- /* CoreSight component? */
- if (((c_cid1 >> 4) & 0x0f) == 9) {
- uint32_t devtype;
- unsigned minor;
- char *major = "Reserved", *subtype = "Reserved";
-
- mem_ap_read_atomic_u32(swjdp,
- (component_base & 0xfffff000) | 0xfcc,
- &devtype);
- minor = (devtype >> 4) & 0x0f;
- switch (devtype & 0x0f) {
- case 0:
- major = "Miscellaneous";
- switch (minor) {
- case 0:
- subtype = "other";
- break;
- case 4:
- subtype = "Validation component";
- break;
- }
- break;
- case 1:
- major = "Trace Sink";
- switch (minor) {
- case 0:
- subtype = "other";
- break;
- case 1:
- subtype = "Port";
- break;
- case 2:
- subtype = "Buffer";
- break;
- }
- break;
- case 2:
- major = "Trace Link";
- switch (minor) {
- case 0:
- subtype = "other";
- break;
- case 1:
- subtype = "Funnel, router";
- break;
- case 2:
- subtype = "Filter";
- break;
- case 3:
- subtype = "FIFO, buffer";
- break;
- }
- break;
- case 3:
- major = "Trace Source";
- switch (minor) {
- case 0:
- subtype = "other";
- break;
- case 1:
- subtype = "Processor";
- break;
- case 2:
- subtype = "DSP";
- break;
- case 3:
- subtype = "Engine/Coprocessor";
- break;
- case 4:
- subtype = "Bus";
- break;
- }
- break;
- case 4:
- major = "Debug Control";
- switch (minor) {
- case 0:
- subtype = "other";
- break;
- case 1:
- subtype = "Trigger Matrix";
- break;
- case 2:
- subtype = "Debug Auth";
- break;
- }
- break;
- case 5:
- major = "Debug Logic";
- switch (minor) {
- case 0:
- subtype = "other";
- break;
- case 1:
- subtype = "Processor";
- break;
- case 2:
- subtype = "DSP";
- break;
- case 3:
- subtype = "Engine/Coprocessor";
- break;
- }
- break;
- }
- command_print(cmd_ctx, "\t\tType is 0x%2.2x, %s, %s",
- (unsigned) (devtype & 0xff),
- major, subtype);
- /* REVISIT also show 0xfc8 DevId */
- }
-
- if (!is_dap_cid_ok(cid3, cid2, cid1, cid0))
- command_print(cmd_ctx, "\t\tCID3 0x%2.2" PRIx32
- ", CID2 0x%2.2" PRIx32
- ", CID1 0x%2.2" PRIx32
- ", CID0 0x%2.2" PRIx32,
- c_cid3, c_cid2, c_cid1, c_cid0);
- command_print(cmd_ctx, "\t\tPeripheral ID[4..0] = hex "
- "%2.2x %2.2x %2.2x %2.2x %2.2x",
- (int) c_pid4,
- (int) c_pid3, (int) c_pid2,
- (int) c_pid1, (int) c_pid0);
-
- /* Part number interpretations are from Cortex
- * core specs, the CoreSight components TRM
- * (ARM DDI 0314H), and ETM specs; also from
- * chip observation (e.g. TI SDTI).
- */
- part_num = c_pid0 & 0xff;
- part_num |= (c_pid1 & 0x0f) << 8;
- switch (part_num) {
- case 0x000:
- type = "Cortex-M3 NVIC";
- full = "(Interrupt Controller)";
- break;
- case 0x001:
- type = "Cortex-M3 ITM";
- full = "(Instrumentation Trace Module)";
- break;
- case 0x002:
- type = "Cortex-M3 DWT";
- full = "(Data Watchpoint and Trace)";
- break;
- case 0x003:
- type = "Cortex-M3 FBP";
- full = "(Flash Patch and Breakpoint)";
- break;
- case 0x00d:
- type = "CoreSight ETM11";
- full = "(Embedded Trace)";
- break;
- // case 0x113: what?
- case 0x120: /* from OMAP3 memmap */
- type = "TI SDTI";
- full = "(System Debug Trace Interface)";
- break;
- case 0x343: /* from OMAP3 memmap */
- type = "TI DAPCTL";
- full = "";
- break;
- case 0x906:
- type = "Coresight CTI";
- full = "(Cross Trigger)";
- break;
- case 0x907:
- type = "Coresight ETB";
- full = "(Trace Buffer)";
- break;
- case 0x908:
- type = "Coresight CSTF";
- full = "(Trace Funnel)";
- break;
- case 0x910:
- type = "CoreSight ETM9";
- full = "(Embedded Trace)";
- break;
- case 0x912:
- type = "Coresight TPIU";
- full = "(Trace Port Interface Unit)";
- break;
- case 0x921:
- type = "Cortex-A8 ETM";
- full = "(Embedded Trace)";
- break;
- case 0x922:
- type = "Cortex-A8 CTI";
- full = "(Cross Trigger)";
- break;
- case 0x923:
- type = "Cortex-M3 TPIU";
- full = "(Trace Port Interface Unit)";
- break;
- case 0x924:
- type = "Cortex-M3 ETM";
- full = "(Embedded Trace)";
- break;
- case 0xc08:
- type = "Cortex-A8 Debug";
- full = "(Debug Unit)";
- break;
- default:
- type = "-*- unrecognized -*-";
- full = "";
- break;
- }
- command_print(cmd_ctx, "\t\tPart is %s %s",
- type, full);
- }
- else
- {
- if (romentry)
- command_print(cmd_ctx, "\t\tComponent not present");
- else
- command_print(cmd_ctx, "\t\tEnd of ROM table");
- }
- entry_offset += 4;
- } while (romentry > 0);
- }
- else
- {
- command_print(cmd_ctx, "\tNo ROM table present");
- }
- dap_ap_select(swjdp, apselold);
-
- return ERROR_OK;
-}
-
-COMMAND_HANDLER(handle_dap_info_command)
-{
- struct target *target = get_current_target(CMD_CTX);
- struct arm *arm = target_to_arm(target);
- struct adiv5_dap *dap = arm->dap;
- uint32_t apsel;
-
- switch (CMD_ARGC) {
- case 0:
- apsel = dap->apsel;
- break;
- case 1:
- COMMAND_PARSE_NUMBER(u32, CMD_ARGV[0], apsel);
- break;
- default:
- return ERROR_COMMAND_SYNTAX_ERROR;
- }
-
- return dap_info_command(CMD_CTX, dap, apsel);
-}
-
-COMMAND_HANDLER(dap_baseaddr_command)
-{
- struct target *target = get_current_target(CMD_CTX);
- struct arm *arm = target_to_arm(target);
- struct adiv5_dap *dap = arm->dap;
-
- uint32_t apsel, apselsave, baseaddr;
- int retval;
-
- apselsave = dap->apsel;
- switch (CMD_ARGC) {
- case 0:
- apsel = dap->apsel;
- break;
- case 1:
- COMMAND_PARSE_NUMBER(u32, CMD_ARGV[0], apsel);
- /* AP address is in bits 31:24 of DP_SELECT */
- if (apsel >= 256)
- return ERROR_INVALID_ARGUMENTS;
- break;
- default:
- return ERROR_COMMAND_SYNTAX_ERROR;
- }
-
- if (apselsave != apsel)
- dap_ap_select(dap, apsel);
-
- /* NOTE: assumes we're talking to a MEM-AP, which
- * has a base address. There are other kinds of AP,
- * though they're not common for now. This should
- * use the ID register to verify it's a MEM-AP.
- */
- retval = dap_queue_ap_read(dap, AP_REG_BASE, &baseaddr);
- retval = dap_run(dap);
- if (retval != ERROR_OK)
- return retval;
-
- command_print(CMD_CTX, "0x%8.8" PRIx32, baseaddr);
-
- if (apselsave != apsel)
- dap_ap_select(dap, apselsave);
-
- return retval;
-}
-
-COMMAND_HANDLER(dap_memaccess_command)
-{
- struct target *target = get_current_target(CMD_CTX);
- struct arm *arm = target_to_arm(target);
- struct adiv5_dap *dap = arm->dap;
-
- uint32_t memaccess_tck;
-
- switch (CMD_ARGC) {
- case 0:
- memaccess_tck = dap->memaccess_tck;
- break;
- case 1:
- COMMAND_PARSE_NUMBER(u32, CMD_ARGV[0], memaccess_tck);
- break;
- default:
- return ERROR_COMMAND_SYNTAX_ERROR;
- }
- dap->memaccess_tck = memaccess_tck;
-
- command_print(CMD_CTX, "memory bus access delay set to %" PRIi32 " tck",
- dap->memaccess_tck);
-
- return ERROR_OK;
-}
-
-COMMAND_HANDLER(dap_apsel_command)
-{
- struct target *target = get_current_target(CMD_CTX);
- struct arm *arm = target_to_arm(target);
- struct adiv5_dap *dap = arm->dap;
-
- uint32_t apsel, apid;
- int retval;
-
- switch (CMD_ARGC) {
- case 0:
- apsel = 0;
- break;
- case 1:
- COMMAND_PARSE_NUMBER(u32, CMD_ARGV[0], apsel);
- /* AP address is in bits 31:24 of DP_SELECT */
- if (apsel >= 256)
- return ERROR_INVALID_ARGUMENTS;
- break;
- default:
- return ERROR_COMMAND_SYNTAX_ERROR;
- }
-
- dap_ap_select(dap, apsel);
- retval = dap_queue_ap_read(dap, AP_REG_IDR, &apid);
- retval = dap_run(dap);
- if (retval != ERROR_OK)
- return retval;
-
- command_print(CMD_CTX, "ap %" PRIi32 " selected, identification register 0x%8.8" PRIx32,
- apsel, apid);
-
- return retval;
-}
-
-COMMAND_HANDLER(dap_apid_command)
-{
- struct target *target = get_current_target(CMD_CTX);
- struct arm *arm = target_to_arm(target);
- struct adiv5_dap *dap = arm->dap;
-
- uint32_t apsel, apselsave, apid;
- int retval;
-
- apselsave = dap->apsel;
- switch (CMD_ARGC) {
- case 0:
- apsel = dap->apsel;
- break;
- case 1:
- COMMAND_PARSE_NUMBER(u32, CMD_ARGV[0], apsel);
- /* AP address is in bits 31:24 of DP_SELECT */
- if (apsel >= 256)
- return ERROR_INVALID_ARGUMENTS;
- break;
- default:
- return ERROR_COMMAND_SYNTAX_ERROR;
- }
-
- if (apselsave != apsel)
- dap_ap_select(dap, apsel);
-
- retval = dap_queue_ap_read(dap, AP_REG_IDR, &apid);
- retval = dap_run(dap);
- if (retval != ERROR_OK)
- return retval;
-
- command_print(CMD_CTX, "0x%8.8" PRIx32, apid);
- if (apselsave != apsel)
- dap_ap_select(dap, apselsave);
-
- return retval;
-}
-
-static const struct command_registration dap_commands[] = {
- {
- .name = "info",
- .handler = handle_dap_info_command,
- .mode = COMMAND_EXEC,
- .help = "display ROM table for MEM-AP "
- "(default currently selected AP)",
- .usage = "[ap_num]",
- },
- {
- .name = "apsel",
- .handler = dap_apsel_command,
- .mode = COMMAND_EXEC,
- .help = "Set the currently selected AP (default 0) "
- "and display the result",
- .usage = "[ap_num]",
- },
- {
- .name = "apid",
- .handler = dap_apid_command,
- .mode = COMMAND_EXEC,
- .help = "return ID register from AP "
- "(default currently selected AP)",
- .usage = "[ap_num]",
- },
- {
- .name = "baseaddr",
- .handler = dap_baseaddr_command,
- .mode = COMMAND_EXEC,
- .help = "return debug base address from MEM-AP "
- "(default currently selected AP)",
- .usage = "[ap_num]",
- },
- {
- .name = "memaccess",
- .handler = dap_memaccess_command,
- .mode = COMMAND_EXEC,
- .help = "set/get number of extra tck for MEM-AP memory "
- "bus access [0-255]",
- .usage = "[cycles]",
- },
- COMMAND_REGISTRATION_DONE
-};
-
-const struct command_registration dap_command_handlers[] = {
- {
- .name = "dap",
- .mode = COMMAND_EXEC,
- .help = "DAP command group",
- .chain = dap_commands,
- },
- COMMAND_REGISTRATION_DONE
-};
-
-
-/*
- * This represents the bits which must be sent out on TMS/SWDIO to
- * switch a DAP implemented using an SWJ-DP module into SWD mode.
- * These bits are stored (and transmitted) LSB-first.
- *
- * See the DAP-Lite specification, section 2.2.5 for information
- * about making the debug link select SWD or JTAG. (Similar info
- * is in a few other ARM documents.)
- */
-static const uint8_t jtag2swd_bitseq[] = {
- /* More than 50 TCK/SWCLK cycles with TMS/SWDIO high,
- * putting both JTAG and SWD logic into reset state.
- */
- 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
- /* Switching sequence enables SWD and disables JTAG
- * NOTE: bits in the DP's IDCODE may expose the need for
- * an old/deprecated sequence (0xb6 0xed).
- */
- 0x9e, 0xe7,
- /* More than 50 TCK/SWCLK cycles with TMS/SWDIO high,
- * putting both JTAG and SWD logic into reset state.
- */
- 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
-};
-
-/**
- * Put the debug link into SWD mode, if the target supports it.
- * The link's initial mode may be either JTAG (for example,
- * with SWJ-DP after reset) or SWD.
- *
- * @param target Enters SWD mode (if possible).
- *
- * Note that targets using the JTAG-DP do not support SWD, and that
- * some targets which could otherwise support it may have have been
- * configured to disable SWD signaling
- *
- * @return ERROR_OK or else a fault code.
- */
-int dap_to_swd(struct target *target)
-{
- int retval;
-
- LOG_DEBUG("Enter SWD mode");
-
- /* REVISIT it's nasty to need to make calls to a "jtag"
- * subsystem if the link isn't in JTAG mode...
- */
-
- retval = jtag_add_tms_seq(8 * sizeof(jtag2swd_bitseq),
- jtag2swd_bitseq, TAP_INVALID);
- if (retval == ERROR_OK)
- retval = jtag_execute_queue();
-
- /* REVISIT set up the DAP's ops vector for SWD mode. */
-
- return retval;
-}
-
diff --git a/src/target/arm_adi_v5.c~ b/src/target/arm_adi_v5.c~
deleted file mode 100644
index 708e8581..00000000
--- a/src/target/arm_adi_v5.c~
+++ /dev/null
@@ -1,1981 +0,0 @@
-/***************************************************************************
- * Copyright (C) 2006 by Magnus Lundin *
- * lundin@mlu.mine.nu *
- * *
- * Copyright (C) 2008 by Spencer Oliver *
- * spen@spen-soft.co.uk *
- * *
- * Copyright (C) 2009 by Oyvind Harboe *
- * oyvind.harboe@zylin.com *
- * *
- * Copyright (C) 2009-2010 by David Brownell *
- * *
- * This program is free software; you can redistribute it and/or modify *
- * it under the terms of the GNU General Public License as published by *
- * the Free Software Foundation; either version 2 of the License, or *
- * (at your option) any later version. *
- * *
- * 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. *
- * *
- * You should have received a copy of the GNU General Public License *
- * along with this program; if not, write to the *
- * Free Software Foundation, Inc., *
- * 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. *
- ***************************************************************************/
-
-/**
- * @file
- * This file implements support for the ARM Debug Interface version 5 (ADIv5)
- * debugging architecture. Compared with previous versions, this includes
- * a low pin-count Serial Wire Debug (SWD) alternative to JTAG for message
- * transport, and focusses on memory mapped resources as defined by the
- * CoreSight architecture.
- *
- * A key concept in ADIv5 is the Debug Access Port, or DAP. A DAP has two
- * basic components: a Debug Port (DP) transporting messages to and from a
- * debugger, and an Access Port (AP) accessing resources. Three types of DP
- * are defined. One uses only JTAG for communication, and is called JTAG-DP.
- * One uses only SWD for communication, and is called SW-DP. The third can
- * use either SWD or JTAG, and is called SWJ-DP. The most common type of AP
- * is used to access memory mapped resources and is called a MEM-AP. Also a
- * JTAG-AP is also defined, bridging to JTAG resources; those are uncommon.
- *
- * This programming interface allows DAP pipelined operations through a
- * transaction queue. This primarily affects AP operations (such as using
- * a MEM-AP to access memory or registers). If the current transaction has
- * not finished by the time the next one must begin, and the ORUNDETECT bit
- * is set in the DP_CTRL_STAT register, the SSTICKYORUN status is set and
- * further AP operations will fail. There are two basic methods to avoid
- * such overrun errors. One involves polling for status instead of using
- * transaction piplining. The other involves adding delays to ensure the
- * AP has enough time to complete one operation before starting the next
- * one. (For JTAG these delays are controlled by memaccess_tck.)
- */
-
-/*
- * Relevant specifications from ARM include:
- *
- * ARM(tm) Debug Interface v5 Architecture Specification ARM IHI 0031A
- * CoreSight(tm) v1.0 Architecture Specification ARM IHI 0029B
- *
- * CoreSight(tm) DAP-Lite TRM, ARM DDI 0316D
- * Cortex-M3(tm) TRM, ARM DDI 0337G
- */
-
-#ifdef HAVE_CONFIG_H
-#include "config.h"
-#endif
-
-#include "arm.h"
-#include "arm_adi_v5.h"
-#include <helper/time_support.h>
-
-
-/* ARM ADI Specification requires at least 10 bits used for TAR autoincrement */
-
-/*
- uint32_t tar_block_size(uint32_t address)
- Return the largest block starting at address that does not cross a tar block size alignment boundary
-*/
-static uint32_t max_tar_block_size(uint32_t tar_autoincr_block, uint32_t address)
-{
- return (tar_autoincr_block - ((tar_autoincr_block - 1) & address)) >> 2;
-}
-
-/***************************************************************************
- * *
-<<<<<<< HEAD:src/target/arm_adi_v5.c
-=======
- * DPACC and APACC scanchain access through JTAG-DP *
- * *
-***************************************************************************/
-
-/**
- * Scan DPACC or APACC using target ordered uint8_t buffers. No endianness
- * conversions are performed. See section 4.4.3 of the ADIv5 spec, which
- * discusses operations which access these registers.
- *
- * Note that only one scan is performed. If RnW is set, a separate scan
- * will be needed to collect the data which was read; the "invalue" collects
- * the posted result of a preceding operation, not the current one.
- *
- * @param swjdp the DAP
- * @param instr JTAG_DP_APACC (AP access) or JTAG_DP_DPACC (DP access)
- * @param reg_addr two significant bits; A[3:2]; for APACC access, the
- * SELECT register has more addressing bits.
- * @param RnW false iff outvalue will be written to the DP or AP
- * @param outvalue points to a 32-bit (little-endian) integer
- * @param invalue NULL, or points to a 32-bit (little-endian) integer
- * @param ack points to where the three bit JTAG_ACK_* code will be stored
- */
-static int adi_jtag_dp_scan(struct adiv5_dap *swjdp,
- uint8_t instr, uint8_t reg_addr, uint8_t RnW,
- uint8_t *outvalue, uint8_t *invalue, uint8_t *ack)
-{
- struct arm_jtag *jtag_info = swjdp->jtag_info;
- struct scan_field fields[2];
- uint8_t out_addr_buf;
-
- jtag_set_end_state(TAP_IDLE);
- arm_jtag_set_instr(jtag_info, instr, NULL);
-
- /* Scan out a read or write operation using some DP or AP register.
- * For APACC access with any sticky error flag set, this is discarded.
- */
- fields[0].num_bits = 3;
- buf_set_u32(&out_addr_buf, 0, 3, ((reg_addr >> 1) & 0x6) | (RnW & 0x1));
- fields[0].out_value = &out_addr_buf;
- fields[0].in_value = ack;
-
- /* NOTE: if we receive JTAG_ACK_WAIT, the previous operation did not
- * complete; data we write is discarded, data we read is unpredictable.
- * When overrun detect is active, STICKYORUN is set.
- */
-
- fields[1].num_bits = 32;
- fields[1].out_value = outvalue;
- fields[1].in_value = invalue;
-
- jtag_add_dr_scan(jtag_info->tap, 2, fields, TAP_IDLE);
-
- /* Add specified number of tck clocks after starting memory bus
- * access, giving the hardware time to complete the access.
- * They provide more time for the (MEM) AP to complete the read ...
- * See "Minimum Response Time" for JTAG-DP, in the ADIv5 spec.
- */
- if ((instr == JTAG_DP_APACC)
- && ((reg_addr == AP_REG_DRW)
- || ((reg_addr & 0xF0) == AP_REG_BD0))
- && (swjdp->memaccess_tck != 0))
- jtag_add_runtest(swjdp->memaccess_tck,
- TAP_IDLE);
-
- return jtag_get_error();
-}
-
-/**
- * Scan DPACC or APACC out and in from host ordered uint32_t buffers.
- * This is exactly like adi_jtag_dp_scan(), except that endianness
- * conversions are performed (so the types of invalue and outvalue
- * must be different).
- */
-static int adi_jtag_dp_scan_u32(struct adiv5_dap *swjdp,
- uint8_t instr, uint8_t reg_addr, uint8_t RnW,
- uint32_t outvalue, uint32_t *invalue, uint8_t *ack)
-{
- uint8_t out_value_buf[4];
- int retval;
-
- buf_set_u32(out_value_buf, 0, 32, outvalue);
-
- retval = adi_jtag_dp_scan(swjdp, instr, reg_addr, RnW,
- out_value_buf, (uint8_t *)invalue, ack);
- if (retval != ERROR_OK)
- return retval;
-
- if (invalue)
- jtag_add_callback(arm_le_to_h_u32,
- (jtag_callback_data_t) invalue);
-
- return retval;
-}
-
-/**
- * Utility to write AP registers.
- */
-static inline int adi_jtag_ap_write_check(struct adiv5_dap *dap,
- uint8_t reg_addr, uint8_t *outvalue)
-{
- return adi_jtag_dp_scan(dap, JTAG_DP_APACC, reg_addr, DPAP_WRITE,
- outvalue, NULL, NULL);
-}
-
-static int adi_jtag_scan_inout_check_u32(struct adiv5_dap *swjdp,
- uint8_t instr, uint8_t reg_addr, uint8_t RnW,
- uint32_t outvalue, uint32_t *invalue)
-{
- int retval;
-
- /* Issue the read or write */
- retval = adi_jtag_dp_scan_u32(swjdp, instr, reg_addr,
- RnW, outvalue, NULL, NULL);
- if (retval != ERROR_OK)
- return retval;
-
- /* For reads, collect posted value; RDBUFF has no other effect.
- * Assumes read gets acked with OK/FAULT, and CTRL_STAT says "OK".
- */
- if ((RnW == DPAP_READ) && (invalue != NULL))
- retval = adi_jtag_dp_scan_u32(swjdp, JTAG_DP_DPACC,
- DP_RDBUFF, DPAP_READ, 0, invalue, &swjdp->ack);
- return retval;
-}
-
-static int jtagdp_transaction_endcheck(struct adiv5_dap *swjdp)
-{
- int retval;
- uint32_t ctrlstat;
-
- /* too expensive to call keep_alive() here */
-
-#if 0
- /* Danger!!!! BROKEN!!!! */
- adi_jtag_scan_inout_check_u32(swjdp, JTAG_DP_DPACC,
- DP_CTRL_STAT, DPAP_READ, 0, &ctrlstat);
- /* Danger!!!! BROKEN!!!! Why will jtag_execute_queue() fail here????
- R956 introduced the check on return value here and now Michael Schwingen reports
- that this code no longer works....
-
- https://lists.berlios.de/pipermail/openocd-development/2008-September/003107.html
- */
- if ((retval = jtag_execute_queue()) != ERROR_OK)
- {
- LOG_ERROR("BUG: Why does this fail the first time????");
- }
- /* Why??? second time it works??? */
-#endif
-
- /* Post CTRL/STAT read; discard any previous posted read value
- * but collect its ACK status.
- */
- adi_jtag_scan_inout_check_u32(swjdp, JTAG_DP_DPACC,
- DP_CTRL_STAT, DPAP_READ, 0, &ctrlstat);
- if ((retval = jtag_execute_queue()) != ERROR_OK)
- return retval;
-
- swjdp->ack = swjdp->ack & 0x7;
-
- /* common code path avoids calling timeval_ms() */
- if (swjdp->ack != JTAG_ACK_OK_FAULT)
- {
- long long then = timeval_ms();
-
- while (swjdp->ack != JTAG_ACK_OK_FAULT)
- {
- if (swjdp->ack == JTAG_ACK_WAIT)
- {
- if ((timeval_ms()-then) > 1000)
- {
- /* NOTE: this would be a good spot
- * to use JTAG_DP_ABORT.
- */
- LOG_WARNING("Timeout (1000ms) waiting "
- "for ACK=OK/FAULT "
- "in JTAG-DP transaction");
- return ERROR_JTAG_DEVICE_ERROR;
- }
- }
- else
- {
- LOG_WARNING("Invalid ACK %#x "
- "in JTAG-DP transaction",
- swjdp->ack);
- return ERROR_JTAG_DEVICE_ERROR;
- }
-
- adi_jtag_scan_inout_check_u32(swjdp, JTAG_DP_DPACC,
- DP_CTRL_STAT, DPAP_READ, 0, &ctrlstat);
- if ((retval = dap_run(swjdp)) != ERROR_OK)
- return retval;
- swjdp->ack = swjdp->ack & 0x7;
- }
- }
-
- /* REVISIT also STICKYCMP, for pushed comparisons (nyet used) */
-
- /* Check for STICKYERR and STICKYORUN */
- if (ctrlstat & (SSTICKYORUN | SSTICKYERR))
- {
- LOG_DEBUG("jtag-dp: CTRL/STAT error, 0x%" PRIx32, ctrlstat);
- /* Check power to debug regions */
- if ((ctrlstat & 0xf0000000) != 0xf0000000)
- ahbap_debugport_init(swjdp);
- else
- {
- uint32_t mem_ap_csw, mem_ap_tar;
-
- /* Maybe print information about last intended
- * MEM-AP access; but not if autoincrementing.
- * *Real* CSW and TAR values are always shown.
- */
- if (swjdp->ap_tar_value != (uint32_t) -1)
- LOG_DEBUG("MEM-AP Cached values: "
- "ap_bank 0x%" PRIx32
- ", ap_csw 0x%" PRIx32
- ", ap_tar 0x%" PRIx32,
- swjdp->ap_bank_value,
- swjdp->ap_csw_value,
- swjdp->ap_tar_value);
-
- if (ctrlstat & SSTICKYORUN)
- LOG_ERROR("JTAG-DP OVERRUN - check clock, "
- "memaccess, or reduce jtag speed");
-
- if (ctrlstat & SSTICKYERR)
- LOG_ERROR("JTAG-DP STICKY ERROR");
-
- /* Clear Sticky Error Bits */
- adi_jtag_scan_inout_check_u32(swjdp, JTAG_DP_DPACC,
- DP_CTRL_STAT, DPAP_WRITE,
- swjdp->dp_ctrl_stat | SSTICKYORUN
- | SSTICKYERR, NULL);
- adi_jtag_scan_inout_check_u32(swjdp, JTAG_DP_DPACC,
- DP_CTRL_STAT, DPAP_READ, 0, &ctrlstat);
- if ((retval = dap_run(swjdp)) != ERROR_OK)
- return retval;
-
- LOG_DEBUG("jtag-dp: CTRL/STAT 0x%" PRIx32, ctrlstat);
-
- retval = dap_queue_ap_read(swjdp,
- AP_REG_CSW, &mem_ap_csw);
- if (retval != ERROR_OK)
- return retval;
-
- retval = dap_queue_ap_read(swjdp,
- AP_REG_TAR, &mem_ap_tar);
- if (retval != ERROR_OK)
- return retval;
-
- if ((retval = dap_run(swjdp)) != ERROR_OK)
- return retval;
- LOG_ERROR("MEM_AP_CSW 0x%" PRIx32 ", MEM_AP_TAR 0x%"
- PRIx32, mem_ap_csw, mem_ap_tar);
-
- }
- if ((retval = dap_run(swjdp)) != ERROR_OK)
- return retval;
- return ERROR_JTAG_DEVICE_ERROR;
- }
-
- return ERROR_OK;
-}
-
-/***************************************************************************
- * *
->>>>>>> jtag: cut down on usage of unintended modification of global end state:src/target/arm_adi_v5.c
- * DP and MEM-AP register access through APACC and DPACC *
- * *
-***************************************************************************/
-
-/**
- * Select one of the APs connected to the specified DAP. The
- * selection is implicitly used with future AP transactions.
- * This is a NOP if the specified AP is already selected.
- *
- * @param swjdp The DAP
- * @param apsel Number of the AP to (implicitly) use with further
- * transactions. This normally identifies a MEM-AP.
- */
-void dap_ap_select(struct adiv5_dap *swjdp,uint8_t apsel)
-{
- uint32_t select = (apsel << 24) & 0xFF000000;
-
- if (select != swjdp->apsel)
- {
- swjdp->apsel = select;
- /* Switching AP invalidates cached values.
- * Values MUST BE UPDATED BEFORE AP ACCESS.
- */
- swjdp->ap_bank_value = -1;
- swjdp->ap_csw_value = -1;
- swjdp->ap_tar_value = -1;
- }
-}
-
-/**
- * Queue transactions setting up transfer parameters for the
- * currently selected MEM-AP.
- *
- * Subsequent transfers using registers like AP_REG_DRW or AP_REG_BD2
- * initiate data reads or writes using memory or peripheral addresses.
- * If the CSW is configured for it, the TAR may be automatically
- * incremented after each transfer.
- *
- * @todo Rename to reflect it being specifically a MEM-AP function.
- *
- * @param swjdp The DAP connected to the MEM-AP.
- * @param csw MEM-AP Control/Status Word (CSW) register to assign. If this
- * matches the cached value, the register is not changed.
- * @param tar MEM-AP Transfer Address Register (TAR) to assign. If this
- * matches the cached address, the register is not changed.
- *
- * @return ERROR_OK if the transaction was properly queued, else a fault code.
- */
-int dap_setup_accessport(struct adiv5_dap *swjdp, uint32_t csw, uint32_t tar)
-{
- int retval;
-
- csw = csw | CSW_DBGSWENABLE | CSW_MASTER_DEBUG | CSW_HPROT;
- if (csw != swjdp->ap_csw_value)
- {
- /* LOG_DEBUG("DAP: Set CSW %x",csw); */
- retval = dap_queue_ap_write(swjdp, AP_REG_CSW, csw);
- if (retval != ERROR_OK)
- return retval;
- swjdp->ap_csw_value = csw;
- }
- if (tar != swjdp->ap_tar_value)
- {
- /* LOG_DEBUG("DAP: Set TAR %x",tar); */
- retval = dap_queue_ap_write(swjdp, AP_REG_TAR, tar);
- if (retval != ERROR_OK)
- return retval;
- swjdp->ap_tar_value = tar;
- }
- /* Disable TAR cache when autoincrementing */
- if (csw & CSW_ADDRINC_MASK)
- swjdp->ap_tar_value = -1;
- return ERROR_OK;
-}
-
-/**
- * Asynchronous (queued) read of a word from memory or a system register.
- *
- * @param swjdp The DAP connected to the MEM-AP performing the read.
- * @param address Address of the 32-bit word to read; it must be
- * readable by the currently selected MEM-AP.
- * @param value points to where the word will be stored when the
- * transaction queue is flushed (assuming no errors).
- *
- * @return ERROR_OK for success. Otherwise a fault code.
- */
-int mem_ap_read_u32(struct adiv5_dap *swjdp, uint32_t address,
- uint32_t *value)
-{
- int retval;
-
- /* Use banked addressing (REG_BDx) to avoid some link traffic
- * (updating TAR) when reading several consecutive addresses.
- */
- retval = dap_setup_accessport(swjdp, CSW_32BIT | CSW_ADDRINC_OFF,
- address & 0xFFFFFFF0);
- if (retval != ERROR_OK)
- return retval;
-
- return dap_queue_ap_read(swjdp, AP_REG_BD0 | (address & 0xC), value);
-}
-
-/**
- * Synchronous read of a word from memory or a system register.
- * As a side effect, this flushes any queued transactions.
- *
- * @param swjdp The DAP connected to the MEM-AP performing the read.
- * @param address Address of the 32-bit word to read; it must be
- * readable by the currently selected MEM-AP.
- * @param value points to where the result will be stored.
- *
- * @return ERROR_OK for success; *value holds the result.
- * Otherwise a fault code.
- */
-int mem_ap_read_atomic_u32(struct adiv5_dap *swjdp, uint32_t address,
- uint32_t *value)
-{
- int retval;
-
- retval = mem_ap_read_u32(swjdp, address, value);
- if (retval != ERROR_OK)
- return retval;
-
- return dap_run(swjdp);
-}
-
-/**
- * Asynchronous (queued) write of a word to memory or a system register.
- *
- * @param swjdp The DAP connected to the MEM-AP.
- * @param address Address to be written; it must be writable by
- * the currently selected MEM-AP.
- * @param value Word that will be written to the address when transaction
- * queue is flushed (assuming no errors).
- *
- * @return ERROR_OK for success. Otherwise a fault code.
- */
-int mem_ap_write_u32(struct adiv5_dap *swjdp, uint32_t address,
- uint32_t value)
-{
- int retval;
-
- /* Use banked addressing (REG_BDx) to avoid some link traffic
- * (updating TAR) when writing several consecutive addresses.
- */
- retval = dap_setup_accessport(swjdp, CSW_32BIT | CSW_ADDRINC_OFF,
- address & 0xFFFFFFF0);
- if (retval != ERROR_OK)
- return retval;
-
- return dap_queue_ap_write(swjdp, AP_REG_BD0 | (address & 0xC),
- value);
-}
-
-/**
- * Synchronous write of a word to memory or a system register.
- * As a side effect, this flushes any queued transactions.
- *
- * @param swjdp The DAP connected to the MEM-AP.
- * @param address Address to be written; it must be writable by
- * the currently selected MEM-AP.
- * @param value Word that will be written.
- *
- * @return ERROR_OK for success; the data was written. Otherwise a fault code.
- */
-int mem_ap_write_atomic_u32(struct adiv5_dap *swjdp, uint32_t address,
- uint32_t value)
-{
- int retval = mem_ap_write_u32(swjdp, address, value);
-
- if (retval != ERROR_OK)
- return retval;
-
- return dap_run(swjdp);
-}
-
-/*****************************************************************************
-* *
-* mem_ap_write_buf(struct adiv5_dap *swjdp, uint8_t *buffer, int count, uint32_t address) *
-* *
-* Write a buffer in target order (little endian) *
-* *
-*****************************************************************************/
-int mem_ap_write_buf_u32(struct adiv5_dap *swjdp, uint8_t *buffer, int count, uint32_t address)
-{
- int wcount, blocksize, writecount, errorcount = 0, retval = ERROR_OK;
- uint32_t adr = address;
- uint8_t* pBuffer = buffer;
-
- count >>= 2;
- wcount = count;
-
- /* if we have an unaligned access - reorder data */
- if (adr & 0x3u)
- {
- for (writecount = 0; writecount < count; writecount++)
- {
- int i;
- uint32_t outvalue;
- memcpy(&outvalue, pBuffer, sizeof(uint32_t));
-
- for (i = 0; i < 4; i++)
- {
- *((uint8_t*)pBuffer + (adr & 0x3)) = outvalue;
- outvalue >>= 8;
- adr++;
- }
- pBuffer += sizeof(uint32_t);
- }
- }
-
- while (wcount > 0)
- {
- /* Adjust to write blocks within boundaries aligned to the TAR autoincremnent size*/
- blocksize = max_tar_block_size(swjdp->tar_autoincr_block, address);
- if (wcount < blocksize)
- blocksize = wcount;
-
- /* handle unaligned data at 4k boundary */
- if (blocksize == 0)
- blocksize = 1;
-
- dap_setup_accessport(swjdp, CSW_32BIT | CSW_ADDRINC_SINGLE, address);
-
- for (writecount = 0; writecount < blocksize; writecount++)
- {
- retval = dap_queue_ap_write(swjdp, AP_REG_DRW,
- *(uint32_t *) (buffer + 4 * writecount));
- if (retval != ERROR_OK)
- break;
- }
-
- if (dap_run(swjdp) == ERROR_OK)
- {
- wcount = wcount - blocksize;
- address = address + 4 * blocksize;
- buffer = buffer + 4 * blocksize;
- }
- else
- {
- errorcount++;
- }
-
- if (errorcount > 1)
- {
- LOG_WARNING("Block write error address 0x%" PRIx32 ", wcount 0x%x", address, wcount);
- /* REVISIT return the *actual* fault code */
- return ERROR_JTAG_DEVICE_ERROR;
- }
- }
-
- return retval;
-}
-
-static int mem_ap_write_buf_packed_u16(struct adiv5_dap *swjdp,
- uint8_t *buffer, int count, uint32_t address)
-{
- int retval = ERROR_OK;
- int wcount, blocksize, writecount, i;
-
- wcount = count >> 1;
-
- while (wcount > 0)
- {
- int nbytes;
-
- /* Adjust to write blocks within boundaries aligned to the TAR autoincremnent size*/
- blocksize = max_tar_block_size(swjdp->tar_autoincr_block, address);
-
- if (wcount < blocksize)
- blocksize = wcount;
-
- /* handle unaligned data at 4k boundary */
- if (blocksize == 0)
- blocksize = 1;
-
- dap_setup_accessport(swjdp, CSW_16BIT | CSW_ADDRINC_PACKED, address);
- writecount = blocksize;
-
- do
- {
- nbytes = MIN((writecount << 1), 4);
-
- if (nbytes < 4)
- {
- if (mem_ap_write_buf_u16(swjdp, buffer,
- nbytes, address) != ERROR_OK)
- {
- LOG_WARNING("Block write error address "
- "0x%" PRIx32 ", count 0x%x",
- address, count);
- return ERROR_JTAG_DEVICE_ERROR;
- }
-
- address += nbytes >> 1;
- }
- else
- {
- uint32_t outvalue;
- memcpy(&outvalue, buffer, sizeof(uint32_t));
-
- for (i = 0; i < nbytes; i++)
- {
- *((uint8_t*)buffer + (address & 0x3)) = outvalue;
- outvalue >>= 8;
- address++;
- }
-
- memcpy(&outvalue, buffer, sizeof(uint32_t));
- retval = dap_queue_ap_write(swjdp,
- AP_REG_DRW, outvalue);
- if (retval != ERROR_OK)
- break;
-
- if (dap_run(swjdp) != ERROR_OK)
- {
- LOG_WARNING("Block write error address "
- "0x%" PRIx32 ", count 0x%x",
- address, count);
- /* REVISIT return *actual* fault code */
- return ERROR_JTAG_DEVICE_ERROR;
- }
- }
-
- buffer += nbytes >> 1;
- writecount -= nbytes >> 1;
-
- } while (writecount);
- wcount -= blocksize;
- }
-
- return retval;
-}
-
-int mem_ap_write_buf_u16(struct adiv5_dap *swjdp, uint8_t *buffer, int count, uint32_t address)
-{
- int retval = ERROR_OK;
-
- if (count >= 4)
- return mem_ap_write_buf_packed_u16(swjdp, buffer, count, address);
-
- while (count > 0)
- {
- dap_setup_accessport(swjdp, CSW_16BIT | CSW_ADDRINC_SINGLE, address);
- uint16_t svalue;
- memcpy(&svalue, buffer, sizeof(uint16_t));
- uint32_t outvalue = (uint32_t)svalue << 8 * (address & 0x3);
- retval = dap_queue_ap_write(swjdp, AP_REG_DRW, outvalue);
- if (retval != ERROR_OK)
- break;
-
- retval = dap_run(swjdp);
- if (retval != ERROR_OK)
- break;
-
- count -= 2;
- address += 2;
- buffer += 2;
- }
-
- return retval;
-}
-
-static int mem_ap_write_buf_packed_u8(struct adiv5_dap *swjdp,
- uint8_t *buffer, int count, uint32_t address)
-{
- int retval = ERROR_OK;
- int wcount, blocksize, writecount, i;
-
- wcount = count;
-
- while (wcount > 0)
- {
- int nbytes;
-
- /* Adjust to write blocks within boundaries aligned to the TAR autoincremnent size*/
- blocksize = max_tar_block_size(swjdp->tar_autoincr_block, address);
-
- if (wcount < blocksize)
- blocksize = wcount;
-
- dap_setup_accessport(swjdp, CSW_8BIT | CSW_ADDRINC_PACKED, address);
- writecount = blocksize;
-
- do
- {
- nbytes = MIN(writecount, 4);
-
- if (nbytes < 4)
- {
- if (mem_ap_write_buf_u8(swjdp, buffer, nbytes, address) != ERROR_OK)
- {
- LOG_WARNING("Block write error address "
- "0x%" PRIx32 ", count 0x%x",
- address, count);
- return ERROR_JTAG_DEVICE_ERROR;
- }
-
- address += nbytes;
- }
- else
- {
- uint32_t outvalue;
- memcpy(&outvalue, buffer, sizeof(uint32_t));
-
- for (i = 0; i < nbytes; i++)
- {
- *((uint8_t*)buffer + (address & 0x3)) = outvalue;
- outvalue >>= 8;
- address++;
- }
-
- memcpy(&outvalue, buffer, sizeof(uint32_t));
- retval = dap_queue_ap_write(swjdp,
- AP_REG_DRW, outvalue);
- if (retval != ERROR_OK)
- break;
-
- if (dap_run(swjdp) != ERROR_OK)
- {
- LOG_WARNING("Block write error address "
- "0x%" PRIx32 ", count 0x%x",
- address, count);
- /* REVISIT return *actual* fault code */
- return ERROR_JTAG_DEVICE_ERROR;
- }
- }
-
- buffer += nbytes;
- writecount -= nbytes;
-
- } while (writecount);
- wcount -= blocksize;
- }
-
- return retval;
-}
-
-int mem_ap_write_buf_u8(struct adiv5_dap *swjdp, uint8_t *buffer, int count, uint32_t address)
-{
- int retval = ERROR_OK;
-
- if (count >= 4)
- return mem_ap_write_buf_packed_u8(swjdp, buffer, count, address);
-
- while (count > 0)
- {
- dap_setup_accessport(swjdp, CSW_8BIT | CSW_ADDRINC_SINGLE, address);
- uint32_t outvalue = (uint32_t)*buffer << 8 * (address & 0x3);
- retval = dap_queue_ap_write(swjdp, AP_REG_DRW, outvalue);
- if (retval != ERROR_OK)
- break;
-
- retval = dap_run(swjdp);
- if (retval != ERROR_OK)
- break;
-
- count--;
- address++;
- buffer++;
- }
-
- return retval;
-}
-
-/* FIXME don't import ... this is a temporary workaround for the
- * mem_ap_read_buf_u32() mess, until it's no longer JTAG-specific.
- */
-extern int adi_jtag_dp_scan(struct adiv5_dap *swjdp,
- uint8_t instr, uint8_t reg_addr, uint8_t RnW,
- uint8_t *outvalue, uint8_t *invalue, uint8_t *ack);
-
-/**
- * Synchronously read a block of 32-bit words into a buffer
- * @param swjdp The DAP connected to the MEM-AP.
- * @param buffer where the words will be stored (in host byte order).
- * @param count How many words to read.
- * @param address Memory address from which to read words; all the
- * words must be readable by the currently selected MEM-AP.
- */
-int mem_ap_read_buf_u32(struct adiv5_dap *swjdp, uint8_t *buffer,
- int count, uint32_t address)
-{
- int wcount, blocksize, readcount, errorcount = 0, retval = ERROR_OK;
- uint32_t adr = address;
- uint8_t* pBuffer = buffer;
-
- count >>= 2;
- wcount = count;
-
- while (wcount > 0)
- {
- /* Adjust to read blocks within boundaries aligned to the
- * TAR autoincrement size (at least 2^10). Autoincrement
- * mode avoids an extra per-word roundtrip to update TAR.
- */
- blocksize = max_tar_block_size(swjdp->tar_autoincr_block,
- address);
- if (wcount < blocksize)
- blocksize = wcount;
-
- /* handle unaligned data at 4k boundary */
- if (blocksize == 0)
- blocksize = 1;
-
- dap_setup_accessport(swjdp, CSW_32BIT | CSW_ADDRINC_SINGLE,
- address);
-
- /* FIXME remove these three calls to adi_jtag_dp_scan(),
- * so this routine becomes transport-neutral. Be careful
- * not to cause performance problems with JTAG; would it
- * suffice to loop over dap_queue_ap_read(), or would that
- * be slower when JTAG is the chosen transport?
- */
-
- /* Scan out first read */
- adi_jtag_dp_scan(swjdp, JTAG_DP_APACC, AP_REG_DRW,
- DPAP_READ, 0, NULL, NULL);
- for (readcount = 0; readcount < blocksize - 1; readcount++)
- {
- /* Scan out next read; scan in posted value for the
- * previous one. Assumes read is acked "OK/FAULT",
- * and CTRL_STAT says that meant "OK".
- */
- adi_jtag_dp_scan(swjdp, JTAG_DP_APACC, AP_REG_DRW,
- DPAP_READ, 0, buffer + 4 * readcount,
- &swjdp->ack);
- }
-
- /* Scan in last posted value; RDBUFF has no other effect,
- * assuming ack is OK/FAULT and CTRL_STAT says "OK".
- */
- adi_jtag_dp_scan(swjdp, JTAG_DP_DPACC, DP_RDBUFF,
- DPAP_READ, 0, buffer + 4 * readcount,
- &swjdp->ack);
- if (dap_run(swjdp) == ERROR_OK)
- {
- wcount = wcount - blocksize;
- address += 4 * blocksize;
- buffer += 4 * blocksize;
- }
- else
- {
- errorcount++;
- }
-
- if (errorcount > 1)
- {
- LOG_WARNING("Block read error address 0x%" PRIx32
- ", count 0x%x", address, count);
- /* REVISIT return the *actual* fault code */
- return ERROR_JTAG_DEVICE_ERROR;
- }
- }
-
- /* if we have an unaligned access - reorder data */
- if (adr & 0x3u)
- {
- for (readcount = 0; readcount < count; readcount++)
- {
- int i;
- uint32_t data;
- memcpy(&data, pBuffer, sizeof(uint32_t));
-
- for (i = 0; i < 4; i++)
- {
- *((uint8_t*)pBuffer) =
- (data >> 8 * (adr & 0x3));
- pBuffer++;
- adr++;
- }
- }
- }
-
- return retval;
-}
-
-static int mem_ap_read_buf_packed_u16(struct adiv5_dap *swjdp,
- uint8_t *buffer, int count, uint32_t address)
-{
- uint32_t invalue;
- int retval = ERROR_OK;
- int wcount, blocksize, readcount, i;
-
- wcount = count >> 1;
-
- while (wcount > 0)
- {
- int nbytes;
-
- /* Adjust to read blocks within boundaries aligned to the TAR autoincremnent size*/
- blocksize = max_tar_block_size(swjdp->tar_autoincr_block, address);
- if (wcount < blocksize)
- blocksize = wcount;
-
- dap_setup_accessport(swjdp, CSW_16BIT | CSW_ADDRINC_PACKED, address);
-
- /* handle unaligned data at 4k boundary */
- if (blocksize == 0)
- blocksize = 1;
- readcount = blocksize;
-
- do
- {
- retval = dap_queue_ap_read(swjdp, AP_REG_DRW, &invalue);
- if (dap_run(swjdp) != ERROR_OK)
- {
- LOG_WARNING("Block read error address 0x%" PRIx32 ", count 0x%x", address, count);
- /* REVISIT return the *actual* fault code */
- return ERROR_JTAG_DEVICE_ERROR;
- }
-
- nbytes = MIN((readcount << 1), 4);
-
- for (i = 0; i < nbytes; i++)
- {
- *((uint8_t*)buffer) = (invalue >> 8 * (address & 0x3));
- buffer++;
- address++;
- }
-
- readcount -= (nbytes >> 1);
- } while (readcount);
- wcount -= blocksize;
- }
-
- return retval;
-}
-
-/**
- * Synchronously read a block of 16-bit halfwords into a buffer
- * @param swjdp The DAP connected to the MEM-AP.
- * @param buffer where the halfwords will be stored (in host byte order).
- * @param count How many halfwords to read.
- * @param address Memory address from which to read words; all the
- * words must be readable by the currently selected MEM-AP.
- */
-int mem_ap_read_buf_u16(struct adiv5_dap *swjdp, uint8_t *buffer,
- int count, uint32_t address)
-{
- uint32_t invalue, i;
- int retval = ERROR_OK;
-
- if (count >= 4)
- return mem_ap_read_buf_packed_u16(swjdp, buffer, count, address);
-
- while (count > 0)
- {
- dap_setup_accessport(swjdp, CSW_16BIT | CSW_ADDRINC_SINGLE, address);
- retval = dap_queue_ap_read(swjdp, AP_REG_DRW, &invalue);
- if (retval != ERROR_OK)
- break;
-
- retval = dap_run(swjdp);
- if (retval != ERROR_OK)
- break;
-
- if (address & 0x1)
- {
- for (i = 0; i < 2; i++)
- {
- *((uint8_t*)buffer) = (invalue >> 8 * (address & 0x3));
- buffer++;
- address++;
- }
- }
- else
- {
- uint16_t svalue = (invalue >> 8 * (address & 0x3));
- memcpy(buffer, &svalue, sizeof(uint16_t));
- address += 2;
- buffer += 2;
- }
- count -= 2;
- }
-
- return retval;
-}
-
-/* FIX!!! is this a potential performance bottleneck w.r.t. requiring too many
- * roundtrips when jtag_execute_queue() has a large overhead(e.g. for USB)s?
- *
- * The solution is to arrange for a large out/in scan in this loop and
- * and convert data afterwards.
- */
-static int mem_ap_read_buf_packed_u8(struct adiv5_dap *swjdp,
- uint8_t *buffer, int count, uint32_t address)
-{
- uint32_t invalue;
- int retval = ERROR_OK;
- int wcount, blocksize, readcount, i;
-
- wcount = count;
-
- while (wcount > 0)
- {
- int nbytes;
-
- /* Adjust to read blocks within boundaries aligned to the TAR autoincremnent size*/
- blocksize = max_tar_block_size(swjdp->tar_autoincr_block, address);
-
- if (wcount < blocksize)
- blocksize = wcount;
-
- dap_setup_accessport(swjdp, CSW_8BIT | CSW_ADDRINC_PACKED, address);
- readcount = blocksize;
-
- do
- {
- retval = dap_queue_ap_read(swjdp, AP_REG_DRW, &invalue);
- if (dap_run(swjdp) != ERROR_OK)
- {
- LOG_WARNING("Block read error address 0x%" PRIx32 ", count 0x%x", address, count);
- /* REVISIT return the *actual* fault code */
- return ERROR_JTAG_DEVICE_ERROR;
- }
-
- nbytes = MIN(readcount, 4);
-
- for (i = 0; i < nbytes; i++)
- {
- *((uint8_t*)buffer) = (invalue >> 8 * (address & 0x3));
- buffer++;
- address++;
- }
-
- readcount -= nbytes;
- } while (readcount);
- wcount -= blocksize;
- }
-
- return retval;
-}
-
-/**
- * Synchronously read a block of bytes into a buffer
- * @param swjdp The DAP connected to the MEM-AP.
- * @param buffer where the bytes will be stored.
- * @param count How many bytes to read.
- * @param address Memory address from which to read data; all the
- * data must be readable by the currently selected MEM-AP.
- */
-int mem_ap_read_buf_u8(struct adiv5_dap *swjdp, uint8_t *buffer,
- int count, uint32_t address)
-{
- uint32_t invalue;
- int retval = ERROR_OK;
-
- if (count >= 4)
- return mem_ap_read_buf_packed_u8(swjdp, buffer, count, address);
-
- while (count > 0)
- {
- dap_setup_accessport(swjdp, CSW_8BIT | CSW_ADDRINC_SINGLE, address);
- retval = dap_queue_ap_read(swjdp, AP_REG_DRW, &invalue);
- retval = dap_run(swjdp);
- if (retval != ERROR_OK)
- break;
-
- *((uint8_t*)buffer) = (invalue >> 8 * (address & 0x3));
- count--;
- address++;
- buffer++;
- }
-
- return retval;
-}
-
-/*--------------------------------------------------------------------------*/
-
-<<<<<<< HEAD:src/target/arm_adi_v5.c
-=======
-static int jtag_idcode_q_read(struct adiv5_dap *dap,
- uint8_t *ack, uint32_t *data)
-{
- struct arm_jtag *jtag_info = dap->jtag_info;
- int retval;
- struct scan_field fields[1];
-
- jtag_set_end_state(TAP_IDLE);
-
- /* This is a standard JTAG operation -- no DAP tweakage */
- retval = arm_jtag_set_instr(jtag_info, JTAG_DP_IDCODE, NULL);
- if (retval != ERROR_OK)
- return retval;
-
- fields[0].num_bits = 32;
- fields[0].out_value = NULL;
- fields[0].in_value = (void *) data;
-
- jtag_add_dr_scan(jtag_info->tap, 1, fields, TAP_IDLE);
- retval = jtag_get_error();
- if (retval != ERROR_OK)
- return retval;
-
- jtag_add_callback(arm_le_to_h_u32,
- (jtag_callback_data_t) data);
-
- return retval;
-}
-
-static int jtag_dp_q_read(struct adiv5_dap *dap, unsigned reg,
- uint32_t *data)
-{
- return adi_jtag_scan_inout_check_u32(dap, JTAG_DP_DPACC,
- reg, DPAP_READ, 0, data);
-}
-
-static int jtag_dp_q_write(struct adiv5_dap *dap, unsigned reg,
- uint32_t data)
-{
- return adi_jtag_scan_inout_check_u32(dap, JTAG_DP_DPACC,
- reg, DPAP_WRITE, data, NULL);
-}
-
-/** Select the AP register bank matching bits 7:4 of reg. */
-static int jtag_ap_q_bankselect(struct adiv5_dap *dap, unsigned reg)
-{
- uint32_t select = reg & 0x000000F0;
-
- if (select == dap->ap_bank_value)
- return ERROR_OK;
- dap->ap_bank_value = select;
-
- select |= dap->apsel;
-
- return jtag_dp_q_write(dap, DP_SELECT, select);
-}
-
-static int jtag_ap_q_read(struct adiv5_dap *dap, unsigned reg,
- uint32_t *data)
-{
- int retval = jtag_ap_q_bankselect(dap, reg);
-
- if (retval != ERROR_OK)
- return retval;
-
- return adi_jtag_scan_inout_check_u32(dap, JTAG_DP_APACC, reg,
- DPAP_READ, 0, data);
-}
-
-static int jtag_ap_q_write(struct adiv5_dap *dap, unsigned reg,
- uint32_t data)
-{
- uint8_t out_value_buf[4];
-
- int retval = jtag_ap_q_bankselect(dap, reg);
- if (retval != ERROR_OK)
- return retval;
->>>>>>> jtag: cut down on usage of unintended modification of global end state:src/target/arm_adi_v5.c
-
-/* FIXME don't import ... just initialize as
- * part of DAP transport setup
-*/
-extern const struct dap_ops jtag_dp_ops;
-
-/*--------------------------------------------------------------------------*/
-
-/**
- * Initialize a DAP. This sets up the power domains, prepares the DP
- * for further use, and arranges to use AP #0 for all AP operations
- * until dap_ap-select() changes that policy.
- *
- * @param swjdp The DAP being initialized.
- *
- * @todo Rename this. We also need an initialization scheme which account
- * for SWD transports not just JTAG; that will need to address differences
- * in layering. (JTAG is useful without any debug target; but not SWD.)
- * And this may not even use an AHB-AP ... e.g. DAP-Lite uses an APB-AP.
- */
-int ahbap_debugport_init(struct adiv5_dap *swjdp)
-{
- uint32_t idreg, romaddr, dummy;
- uint32_t ctrlstat;
- int cnt = 0;
- int retval;
-
- LOG_DEBUG(" ");
-
- /* JTAG-DP or SWJ-DP, in JTAG mode */
- swjdp->ops = &jtag_dp_ops;
-
- /* Default MEM-AP setup.
- *
- * REVISIT AP #0 may be an inappropriate default for this.
- * Should we probe, or take a hint from the caller?
- * Presumably we can ignore the possibility of multiple APs.
- */
- swjdp->apsel = !0;
- dap_ap_select(swjdp, 0);
-
- /* DP initialization */
-
- retval = dap_queue_dp_read(swjdp, DP_CTRL_STAT, &dummy);
- if (retval != ERROR_OK)
- return retval;
-
- retval = dap_queue_dp_write(swjdp, DP_CTRL_STAT, SSTICKYERR);
- if (retval != ERROR_OK)
- return retval;
-
- retval = dap_queue_dp_read(swjdp, DP_CTRL_STAT, &dummy);
- if (retval != ERROR_OK)
- return retval;
-
- swjdp->dp_ctrl_stat = CDBGPWRUPREQ | CSYSPWRUPREQ;
- retval = dap_queue_dp_write(swjdp, DP_CTRL_STAT, swjdp->dp_ctrl_stat);
- if (retval != ERROR_OK)
- return retval;
-
- retval = dap_queue_dp_read(swjdp, DP_CTRL_STAT, &ctrlstat);
- if (retval != ERROR_OK)
- return retval;
- if ((retval = dap_run(swjdp)) != ERROR_OK)
- return retval;
-
- /* Check that we have debug power domains activated */
- while (!(ctrlstat & CDBGPWRUPACK) && (cnt++ < 10))
- {
- LOG_DEBUG("DAP: wait CDBGPWRUPACK");
- retval = dap_queue_dp_read(swjdp, DP_CTRL_STAT, &ctrlstat);
- if (retval != ERROR_OK)
- return retval;
- if ((retval = dap_run(swjdp)) != ERROR_OK)
- return retval;
- alive_sleep(10);
- }
-
- while (!(ctrlstat & CSYSPWRUPACK) && (cnt++ < 10))
- {
- LOG_DEBUG("DAP: wait CSYSPWRUPACK");
- retval = dap_queue_dp_read(swjdp, DP_CTRL_STAT, &ctrlstat);
- if (retval != ERROR_OK)
- return retval;
- if ((retval = dap_run(swjdp)) != ERROR_OK)
- return retval;
- alive_sleep(10);
- }
-
- retval = dap_queue_dp_read(swjdp, DP_CTRL_STAT, &dummy);
- if (retval != ERROR_OK)
- return retval;
- /* With debug power on we can activate OVERRUN checking */
- swjdp->dp_ctrl_stat = CDBGPWRUPREQ | CSYSPWRUPREQ | CORUNDETECT;
- retval = dap_queue_dp_write(swjdp, DP_CTRL_STAT, swjdp->dp_ctrl_stat);
- if (retval != ERROR_OK)
- return retval;
- retval = dap_queue_dp_read(swjdp, DP_CTRL_STAT, &dummy);
- if (retval != ERROR_OK)
- return retval;
-
- /*
- * REVISIT this isn't actually *initializing* anything in an AP,
- * and doesn't care if it's a MEM-AP at all (much less AHB-AP).
- * Should it? If the ROM address is valid, is this the right
- * place to scan the table and do any topology detection?
- */
- retval = dap_queue_ap_read(swjdp, AP_REG_IDR, &idreg);
- retval = dap_queue_ap_read(swjdp, AP_REG_BASE, &romaddr);
-
- LOG_DEBUG("MEM-AP #%d ID Register 0x%" PRIx32
- ", Debug ROM Address 0x%" PRIx32,
- swjdp->apsel, idreg, romaddr);
-
- return ERROR_OK;
-}
-
-/* CID interpretation -- see ARM IHI 0029B section 3
- * and ARM IHI 0031A table 13-3.
- */
-static const char *class_description[16] ={
- "Reserved", "ROM table", "Reserved", "Reserved",
- "Reserved", "Reserved", "Reserved", "Reserved",
- "Reserved", "CoreSight component", "Reserved", "Peripheral Test Block",
- "Reserved", "OptimoDE DESS",
- "Generic IP component", "PrimeCell or System component"
-};
-
-static bool
-is_dap_cid_ok(uint32_t cid3, uint32_t cid2, uint32_t cid1, uint32_t cid0)
-{
- return cid3 == 0xb1 && cid2 == 0x05
- && ((cid1 & 0x0f) == 0) && cid0 == 0x0d;
-}
-
-static int dap_info_command(struct command_context *cmd_ctx,
- struct adiv5_dap *swjdp, int apsel)
-{
- int retval;
- uint32_t dbgbase, apid;
- int romtable_present = 0;
- uint8_t mem_ap;
- uint32_t apselold;
-
- /* AP address is in bits 31:24 of DP_SELECT */
- if (apsel >= 256)
- return ERROR_INVALID_ARGUMENTS;
-
- apselold = swjdp->apsel;
- dap_ap_select(swjdp, apsel);
- retval = dap_queue_ap_read(swjdp, AP_REG_BASE, &dbgbase);
- retval = dap_queue_ap_read(swjdp, AP_REG_IDR, &apid);
- retval = dap_run(swjdp);
- if (retval != ERROR_OK)
- return retval;
-
- /* Now we read ROM table ID registers, ref. ARM IHI 0029B sec */
- mem_ap = ((apid&0x10000) && ((apid&0x0F) != 0));
- command_print(cmd_ctx, "AP ID register 0x%8.8" PRIx32, apid);
- if (apid)
- {
- switch (apid&0x0F)
- {
- case 0:
- command_print(cmd_ctx, "\tType is JTAG-AP");
- break;
- case 1:
- command_print(cmd_ctx, "\tType is MEM-AP AHB");
- break;
- case 2:
- command_print(cmd_ctx, "\tType is MEM-AP APB");
- break;
- default:
- command_print(cmd_ctx, "\tUnknown AP type");
- break;
- }
-
- /* NOTE: a MEM-AP may have a single CoreSight component that's
- * not a ROM table ... or have no such components at all.
- */
- if (mem_ap)
- command_print(cmd_ctx, "AP BASE 0x%8.8" PRIx32,
- dbgbase);
- }
- else
- {
- command_print(cmd_ctx, "No AP found at this apsel 0x%x", apsel);
- }
-
- romtable_present = ((mem_ap) && (dbgbase != 0xFFFFFFFF));
- if (romtable_present)
- {
- uint32_t cid0,cid1,cid2,cid3,memtype,romentry;
- uint16_t entry_offset;
-
- /* bit 16 of apid indicates a memory access port */
- if (dbgbase & 0x02)
- command_print(cmd_ctx, "\tValid ROM table present");
- else
- command_print(cmd_ctx, "\tROM table in legacy format");
-
- /* Now we read ROM table ID registers, ref. ARM IHI 0029B sec */
- mem_ap_read_u32(swjdp, (dbgbase&0xFFFFF000) | 0xFF0, &cid0);
- mem_ap_read_u32(swjdp, (dbgbase&0xFFFFF000) | 0xFF4, &cid1);
- mem_ap_read_u32(swjdp, (dbgbase&0xFFFFF000) | 0xFF8, &cid2);
- mem_ap_read_u32(swjdp, (dbgbase&0xFFFFF000) | 0xFFC, &cid3);
- mem_ap_read_u32(swjdp, (dbgbase&0xFFFFF000) | 0xFCC, &memtype);
- retval = dap_run(swjdp);
- if (retval != ERROR_OK)
- return retval;
-
- if (!is_dap_cid_ok(cid3, cid2, cid1, cid0))
- command_print(cmd_ctx, "\tCID3 0x%2.2" PRIx32
- ", CID2 0x%2.2" PRIx32
- ", CID1 0x%2.2" PRIx32
- ", CID0 0x%2.2" PRIx32,
- cid3, cid2, cid1, cid0);
- if (memtype & 0x01)
- command_print(cmd_ctx, "\tMEMTYPE system memory present on bus");
- else
- command_print(cmd_ctx, "\tMEMTYPE System memory not present. "
- "Dedicated debug bus.");
-
- /* Now we read ROM table entries from dbgbase&0xFFFFF000) | 0x000 until we get 0x00000000 */
- entry_offset = 0;
- do
- {
- mem_ap_read_atomic_u32(swjdp, (dbgbase&0xFFFFF000) | entry_offset, &romentry);
- command_print(cmd_ctx, "\tROMTABLE[0x%x] = 0x%" PRIx32 "",entry_offset,romentry);
- if (romentry&0x01)
- {
- uint32_t c_cid0, c_cid1, c_cid2, c_cid3;
- uint32_t c_pid0, c_pid1, c_pid2, c_pid3, c_pid4;
- uint32_t component_start, component_base;
- unsigned part_num;
- char *type, *full;
-
- component_base = (uint32_t)((dbgbase & 0xFFFFF000)
- + (int)(romentry & 0xFFFFF000));
- mem_ap_read_atomic_u32(swjdp,
- (component_base & 0xFFFFF000) | 0xFE0, &c_pid0);
- mem_ap_read_atomic_u32(swjdp,
- (component_base & 0xFFFFF000) | 0xFE4, &c_pid1);
- mem_ap_read_atomic_u32(swjdp,
- (component_base & 0xFFFFF000) | 0xFE8, &c_pid2);
- mem_ap_read_atomic_u32(swjdp,
- (component_base & 0xFFFFF000) | 0xFEC, &c_pid3);
- mem_ap_read_atomic_u32(swjdp,
- (component_base & 0xFFFFF000) | 0xFD0, &c_pid4);
- mem_ap_read_atomic_u32(swjdp,
- (component_base & 0xFFFFF000) | 0xFF0, &c_cid0);
- mem_ap_read_atomic_u32(swjdp,
- (component_base & 0xFFFFF000) | 0xFF4, &c_cid1);
- mem_ap_read_atomic_u32(swjdp,
- (component_base & 0xFFFFF000) | 0xFF8, &c_cid2);
- mem_ap_read_atomic_u32(swjdp,
- (component_base & 0xFFFFF000) | 0xFFC, &c_cid3);
- component_start = component_base - 0x1000*(c_pid4 >> 4);
-
- command_print(cmd_ctx, "\t\tComponent base address 0x%" PRIx32
- ", start address 0x%" PRIx32,
- component_base, component_start);
- command_print(cmd_ctx, "\t\tComponent class is 0x%x, %s",
- (int) (c_cid1 >> 4) & 0xf,
- /* See ARM IHI 0029B Table 3-3 */
- class_description[(c_cid1 >> 4) & 0xf]);
-
- /* CoreSight component? */
- if (((c_cid1 >> 4) & 0x0f) == 9) {
- uint32_t devtype;
- unsigned minor;
- char *major = "Reserved", *subtype = "Reserved";
-
- mem_ap_read_atomic_u32(swjdp,
- (component_base & 0xfffff000) | 0xfcc,
- &devtype);
- minor = (devtype >> 4) & 0x0f;
- switch (devtype & 0x0f) {
- case 0:
- major = "Miscellaneous";
- switch (minor) {
- case 0:
- subtype = "other";
- break;
- case 4:
- subtype = "Validation component";
- break;
- }
- break;
- case 1:
- major = "Trace Sink";
- switch (minor) {
- case 0:
- subtype = "other";
- break;
- case 1:
- subtype = "Port";
- break;
- case 2:
- subtype = "Buffer";
- break;
- }
- break;
- case 2:
- major = "Trace Link";
- switch (minor) {
- case 0:
- subtype = "other";
- break;
- case 1:
- subtype = "Funnel, router";
- break;
- case 2:
- subtype = "Filter";
- break;
- case 3:
- subtype = "FIFO, buffer";
- break;
- }
- break;
- case 3:
- major = "Trace Source";
- switch (minor) {
- case 0:
- subtype = "other";
- break;
- case 1:
- subtype = "Processor";
- break;
- case 2:
- subtype = "DSP";
- break;
- case 3:
- subtype = "Engine/Coprocessor";
- break;
- case 4:
- subtype = "Bus";
- break;
- }
- break;
- case 4:
- major = "Debug Control";
- switch (minor) {
- case 0:
- subtype = "other";
- break;
- case 1:
- subtype = "Trigger Matrix";
- break;
- case 2:
- subtype = "Debug Auth";
- break;
- }
- break;
- case 5:
- major = "Debug Logic";
- switch (minor) {
- case 0:
- subtype = "other";
- break;
- case 1:
- subtype = "Processor";
- break;
- case 2:
- subtype = "DSP";
- break;
- case 3:
- subtype = "Engine/Coprocessor";
- break;
- }
- break;
- }
- command_print(cmd_ctx, "\t\tType is 0x%2.2x, %s, %s",
- (unsigned) (devtype & 0xff),
- major, subtype);
- /* REVISIT also show 0xfc8 DevId */
- }
-
- if (!is_dap_cid_ok(cid3, cid2, cid1, cid0))
- command_print(cmd_ctx, "\t\tCID3 0x%2.2" PRIx32
- ", CID2 0x%2.2" PRIx32
- ", CID1 0x%2.2" PRIx32
- ", CID0 0x%2.2" PRIx32,
- c_cid3, c_cid2, c_cid1, c_cid0);
- command_print(cmd_ctx, "\t\tPeripheral ID[4..0] = hex "
- "%2.2x %2.2x %2.2x %2.2x %2.2x",
- (int) c_pid4,
- (int) c_pid3, (int) c_pid2,
- (int) c_pid1, (int) c_pid0);
-
- /* Part number interpretations are from Cortex
- * core specs, the CoreSight components TRM
- * (ARM DDI 0314H), and ETM specs; also from
- * chip observation (e.g. TI SDTI).
- */
- part_num = c_pid0 & 0xff;
- part_num |= (c_pid1 & 0x0f) << 8;
- switch (part_num) {
- case 0x000:
- type = "Cortex-M3 NVIC";
- full = "(Interrupt Controller)";
- break;
- case 0x001:
- type = "Cortex-M3 ITM";
- full = "(Instrumentation Trace Module)";
- break;
- case 0x002:
- type = "Cortex-M3 DWT";
- full = "(Data Watchpoint and Trace)";
- break;
- case 0x003:
- type = "Cortex-M3 FBP";
- full = "(Flash Patch and Breakpoint)";
- break;
- case 0x00d:
- type = "CoreSight ETM11";
- full = "(Embedded Trace)";
- break;
- // case 0x113: what?
- case 0x120: /* from OMAP3 memmap */
- type = "TI SDTI";
- full = "(System Debug Trace Interface)";
- break;
- case 0x343: /* from OMAP3 memmap */
- type = "TI DAPCTL";
- full = "";
- break;
- case 0x906:
- type = "Coresight CTI";
- full = "(Cross Trigger)";
- break;
- case 0x907:
- type = "Coresight ETB";
- full = "(Trace Buffer)";
- break;
- case 0x908:
- type = "Coresight CSTF";
- full = "(Trace Funnel)";
- break;
- case 0x910:
- type = "CoreSight ETM9";
- full = "(Embedded Trace)";
- break;
- case 0x912:
- type = "Coresight TPIU";
- full = "(Trace Port Interface Unit)";
- break;
- case 0x921:
- type = "Cortex-A8 ETM";
- full = "(Embedded Trace)";
- break;
- case 0x922:
- type = "Cortex-A8 CTI";
- full = "(Cross Trigger)";
- break;
- case 0x923:
- type = "Cortex-M3 TPIU";
- full = "(Trace Port Interface Unit)";
- break;
- case 0x924:
- type = "Cortex-M3 ETM";
- full = "(Embedded Trace)";
- break;
- case 0xc08:
- type = "Cortex-A8 Debug";
- full = "(Debug Unit)";
- break;
- default:
- type = "-*- unrecognized -*-";
- full = "";
- break;
- }
- command_print(cmd_ctx, "\t\tPart is %s %s",
- type, full);
- }
- else
- {
- if (romentry)
- command_print(cmd_ctx, "\t\tComponent not present");
- else
- command_print(cmd_ctx, "\t\tEnd of ROM table");
- }
- entry_offset += 4;
- } while (romentry > 0);
- }
- else
- {
- command_print(cmd_ctx, "\tNo ROM table present");
- }
- dap_ap_select(swjdp, apselold);
-
- return ERROR_OK;
-}
-
-COMMAND_HANDLER(handle_dap_info_command)
-{
- struct target *target = get_current_target(CMD_CTX);
- struct arm *arm = target_to_arm(target);
- struct adiv5_dap *dap = arm->dap;
- uint32_t apsel;
-
- switch (CMD_ARGC) {
- case 0:
- apsel = dap->apsel;
- break;
- case 1:
- COMMAND_PARSE_NUMBER(u32, CMD_ARGV[0], apsel);
- break;
- default:
- return ERROR_COMMAND_SYNTAX_ERROR;
- }
-
- return dap_info_command(CMD_CTX, dap, apsel);
-}
-
-COMMAND_HANDLER(dap_baseaddr_command)
-{
- struct target *target = get_current_target(CMD_CTX);
- struct arm *arm = target_to_arm(target);
- struct adiv5_dap *dap = arm->dap;
-
- uint32_t apsel, apselsave, baseaddr;
- int retval;
-
- apselsave = dap->apsel;
- switch (CMD_ARGC) {
- case 0:
- apsel = dap->apsel;
- break;
- case 1:
- COMMAND_PARSE_NUMBER(u32, CMD_ARGV[0], apsel);
- /* AP address is in bits 31:24 of DP_SELECT */
- if (apsel >= 256)
- return ERROR_INVALID_ARGUMENTS;
- break;
- default:
- return ERROR_COMMAND_SYNTAX_ERROR;
- }
-
- if (apselsave != apsel)
- dap_ap_select(dap, apsel);
-
- /* NOTE: assumes we're talking to a MEM-AP, which
- * has a base address. There are other kinds of AP,
- * though they're not common for now. This should
- * use the ID register to verify it's a MEM-AP.
- */
- retval = dap_queue_ap_read(dap, AP_REG_BASE, &baseaddr);
- retval = dap_run(dap);
- if (retval != ERROR_OK)
- return retval;
-
- command_print(CMD_CTX, "0x%8.8" PRIx32, baseaddr);
-
- if (apselsave != apsel)
- dap_ap_select(dap, apselsave);
-
- return retval;
-}
-
-COMMAND_HANDLER(dap_memaccess_command)
-{
- struct target *target = get_current_target(CMD_CTX);
- struct arm *arm = target_to_arm(target);
- struct adiv5_dap *dap = arm->dap;
-
- uint32_t memaccess_tck;
-
- switch (CMD_ARGC) {
- case 0:
- memaccess_tck = dap->memaccess_tck;
- break;
- case 1:
- COMMAND_PARSE_NUMBER(u32, CMD_ARGV[0], memaccess_tck);
- break;
- default:
- return ERROR_COMMAND_SYNTAX_ERROR;
- }
- dap->memaccess_tck = memaccess_tck;
-
- command_print(CMD_CTX, "memory bus access delay set to %" PRIi32 " tck",
- dap->memaccess_tck);
-
- return ERROR_OK;
-}
-
-COMMAND_HANDLER(dap_apsel_command)
-{
- struct target *target = get_current_target(CMD_CTX);
- struct arm *arm = target_to_arm(target);
- struct adiv5_dap *dap = arm->dap;
-
- uint32_t apsel, apid;
- int retval;
-
- switch (CMD_ARGC) {
- case 0:
- apsel = 0;
- break;
- case 1:
- COMMAND_PARSE_NUMBER(u32, CMD_ARGV[0], apsel);
- /* AP address is in bits 31:24 of DP_SELECT */
- if (apsel >= 256)
- return ERROR_INVALID_ARGUMENTS;
- break;
- default:
- return ERROR_COMMAND_SYNTAX_ERROR;
- }
-
- dap_ap_select(dap, apsel);
- retval = dap_queue_ap_read(dap, AP_REG_IDR, &apid);
- retval = dap_run(dap);
- if (retval != ERROR_OK)
- return retval;
-
- command_print(CMD_CTX, "ap %" PRIi32 " selected, identification register 0x%8.8" PRIx32,
- apsel, apid);
-
- return retval;
-}
-
-COMMAND_HANDLER(dap_apid_command)
-{
- struct target *target = get_current_target(CMD_CTX);
- struct arm *arm = target_to_arm(target);
- struct adiv5_dap *dap = arm->dap;
-
- uint32_t apsel, apselsave, apid;
- int retval;
-
- apselsave = dap->apsel;
- switch (CMD_ARGC) {
- case 0:
- apsel = dap->apsel;
- break;
- case 1:
- COMMAND_PARSE_NUMBER(u32, CMD_ARGV[0], apsel);
- /* AP address is in bits 31:24 of DP_SELECT */
- if (apsel >= 256)
- return ERROR_INVALID_ARGUMENTS;
- break;
- default:
- return ERROR_COMMAND_SYNTAX_ERROR;
- }
-
- if (apselsave != apsel)
- dap_ap_select(dap, apsel);
-
- retval = dap_queue_ap_read(dap, AP_REG_IDR, &apid);
- retval = dap_run(dap);
- if (retval != ERROR_OK)
- return retval;
-
- command_print(CMD_CTX, "0x%8.8" PRIx32, apid);
- if (apselsave != apsel)
- dap_ap_select(dap, apselsave);
-
- return retval;
-}
-
-static const struct command_registration dap_commands[] = {
- {
- .name = "info",
- .handler = handle_dap_info_command,
- .mode = COMMAND_EXEC,
- .help = "display ROM table for MEM-AP "
- "(default currently selected AP)",
- .usage = "[ap_num]",
- },
- {
- .name = "apsel",
- .handler = dap_apsel_command,
- .mode = COMMAND_EXEC,
- .help = "Set the currently selected AP (default 0) "
- "and display the result",
- .usage = "[ap_num]",
- },
- {
- .name = "apid",
- .handler = dap_apid_command,
- .mode = COMMAND_EXEC,
- .help = "return ID register from AP "
- "(default currently selected AP)",
- .usage = "[ap_num]",
- },
- {
- .name = "baseaddr",
- .handler = dap_baseaddr_command,
- .mode = COMMAND_EXEC,
- .help = "return debug base address from MEM-AP "
- "(default currently selected AP)",
- .usage = "[ap_num]",
- },
- {
- .name = "memaccess",
- .handler = dap_memaccess_command,
- .mode = COMMAND_EXEC,
- .help = "set/get number of extra tck for MEM-AP memory "
- "bus access [0-255]",
- .usage = "[cycles]",
- },
- COMMAND_REGISTRATION_DONE
-};
-
-const struct command_registration dap_command_handlers[] = {
- {
- .name = "dap",
- .mode = COMMAND_EXEC,
- .help = "DAP command group",
- .chain = dap_commands,
- },
- COMMAND_REGISTRATION_DONE
-};
-
-
-/*
- * This represents the bits which must be sent out on TMS/SWDIO to
- * switch a DAP implemented using an SWJ-DP module into SWD mode.
- * These bits are stored (and transmitted) LSB-first.
- *
- * See the DAP-Lite specification, section 2.2.5 for information
- * about making the debug link select SWD or JTAG. (Similar info
- * is in a few other ARM documents.)
- */
-static const uint8_t jtag2swd_bitseq[] = {
- /* More than 50 TCK/SWCLK cycles with TMS/SWDIO high,
- * putting both JTAG and SWD logic into reset state.
- */
- 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
- /* Switching sequence enables SWD and disables JTAG
- * NOTE: bits in the DP's IDCODE may expose the need for
- * an old/deprecated sequence (0xb6 0xed).
- */
- 0x9e, 0xe7,
- /* More than 50 TCK/SWCLK cycles with TMS/SWDIO high,
- * putting both JTAG and SWD logic into reset state.
- */
- 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
-};
-
-/**
- * Put the debug link into SWD mode, if the target supports it.
- * The link's initial mode may be either JTAG (for example,
- * with SWJ-DP after reset) or SWD.
- *
- * @param target Enters SWD mode (if possible).
- *
- * Note that targets using the JTAG-DP do not support SWD, and that
- * some targets which could otherwise support it may have have been
- * configured to disable SWD signaling
- *
- * @return ERROR_OK or else a fault code.
- */
-int dap_to_swd(struct target *target)
-{
- int retval;
-
- LOG_DEBUG("Enter SWD mode");
-
- /* REVISIT it's nasty to need to make calls to a "jtag"
- * subsystem if the link isn't in JTAG mode...
- */
-
- retval = jtag_add_tms_seq(8 * sizeof(jtag2swd_bitseq),
- jtag2swd_bitseq, TAP_INVALID);
- if (retval == ERROR_OK)
- retval = jtag_execute_queue();
-
- /* REVISIT set up the DAP's ops vector for SWD mode. */
-
- return retval;
-}
-