From: Robert Jordens Date: Tue, 8 Aug 2017 16:16:35 +0000 (+0200) Subject: jtagspi: new protocol that includes transfer length X-Git-Url: https://git.sur5r.net/?a=commitdiff_plain;h=867bdb2e9248a974f7db0a99fbe5d2dd8b46d25d;p=openocd jtagspi: new protocol that includes transfer length This commit contains a rewrite of the jtagspi protocol and covers both changes in the jtagspi.c openocd driver and the bscan_spi (xilinx_bscan_spi) proxy bitstreams. The changes are as follows: 1. Always perform IR scan to ensure proper clearing of BYPASSed DRs. 2. Insert alignment cycles for all BYPASSed TAPs: The previous logic was erroneous. The delay in clock cyles from a bit written to the jtag interface to a bit read by the jtag interface is: * The number of BYPASSed TAPs before this (jtagspi) tap * The length of the jtagspi data register (1) * The number of BYPASSed TAPs before this one. I.e. it is just the number of enabled TAPs. This also gets rid of the configuration parameter DR_LENGTH. 3. Use marker bit to start spi transfer If there are TAPs ahead of this one on the JTAG chain, and we are in DR-SHIFT, there will be old bits toggled through first before the first valid bit destined for the flash. This delays the begin of the JTAGSPI transaction until the first high bit. 4. New jtagspi protocol A JTAGSPI transfer now consists of: * an arbitrary number of 0 bits (from BYPASS registers in front of the JTAG2SPI DR) * a marker bit (1) indicating the start of the JTAG2SPI transaction * 32 bits (big endian) describing the length of the SPI transaction * a number of SPI clock cycles (corresponding to 3.) with CS_N asserted * an arbitrary number of cycles (to shift MISO/TDO data through subsequent BYPASS registers) 5. xilinx_bscan_spi: clean up, add ultrascale This is tested on the following configurations: * KC705: XC7K325T * Sayma AMC: XCKU040 * Sayma AMC + RTM): XCKU040 + XC7A15T, a board with integrated FTDI JTAG adapter, SCANSTA JTAG router, a Xilinx Ultrascale XCKU040 and a Xilinx Artix 7 15T. https://github.com/m-labs/sinara/wiki/Sayma * Custom board with Lattice FPGA + XC7A35T * CUstom board with 3x XCKU115-2FLVA1517E Change-Id: I7361e9fb284ebb916302941735eebef3612aa103 Signed-off-by: Robert Jordens Reviewed-on: http://openocd.zylin.com/4236 Tested-by: jenkins Reviewed-by: Paul Fertser --- diff --git a/contrib/loaders/flash/fpga/xilinx_bscan_spi.py b/contrib/loaders/flash/fpga/xilinx_bscan_spi.py index fa4ec2ac..4246aa2f 100755 --- a/contrib/loaders/flash/fpga/xilinx_bscan_spi.py +++ b/contrib/loaders/flash/fpga/xilinx_bscan_spi.py @@ -13,8 +13,11 @@ # GNU General Public License for more details. # -from migen import * -from migen.build.generic_platform import * +import unittest + +import migen as mg +import migen.build.generic_platform as mb +from migen.genlib import io from migen.build import xilinx @@ -25,59 +28,256 @@ behind FPGAs. Bitstream binaries built with this script are available at: https://github.com/jordens/bscan_spi_bitstreams -JTAG signalling is connected directly to SPI signalling. CS_N is -asserted when the JTAG IR contains the USER1 instruction and the state is -SHIFT-DR. Xilinx bscan cells sample TDO on falling TCK and forward it. -MISO requires sampling on rising CLK and leads to one cycle of latency. +A JTAG2SPI transfer consists of: + +1. an arbitrary number of 0 bits (from BYPASS registers in front of the + JTAG2SPI DR) +2. a marker bit (1) indicating the start of the JTAG2SPI transaction +3. 32 bits (big endian) describing the length of the SPI transaction +4. a number of SPI clock cycles (corresponding to 3.) with CS_N asserted +5. an arbitrary number of cycles (to shift MISO/TDO data through subsequent + BYPASS registers) + +Notes: + +* The JTAG2SPI DR is 1 bit long (due to different sampling edges of + {MISO,MOSI}/{TDO,TDI}). +* MOSI is TDI with half a cycle delay. +* TDO is MISO with half a cycle delay. +* CAPTURE-DR needs to be performed before SHIFT-DR on the BYPASSed TAPs in + JTAG chain to clear the BYPASS registers to 0. https://github.com/m-labs/migen """ -class Spartan3(Module): +class JTAG2SPI(mg.Module): + def __init__(self, spi=None, bits=32): + self.jtag = mg.Record([ + ("sel", 1), + ("shift", 1), + ("capture", 1), + ("tck", 1), + ("tdi", 1), + ("tdo", 1), + ]) + self.cs_n = mg.TSTriple() + self.clk = mg.TSTriple() + self.mosi = mg.TSTriple() + self.miso = mg.TSTriple() + + # # # + + self.cs_n.o.reset = mg.Constant(1) + self.mosi.o.reset_less = True + bits = mg.Signal(bits, reset_less=True) + head = mg.Signal(max=len(bits), reset=len(bits) - 1) + self.clock_domains.cd_sys = mg.ClockDomain() + self.submodules.fsm = mg.FSM("IDLE") + if spi is not None: + self.specials += [ + self.cs_n.get_tristate(spi.cs_n), + self.mosi.get_tristate(spi.mosi), + self.miso.get_tristate(spi.miso), + ] + if hasattr(spi, "clk"): # 7 Series drive it fixed + self.specials += self.clk.get_tristate(spi.clk) + # self.specials += io.DDROutput(1, 0, spi.clk, self.clk.o) + self.comb += [ + self.cd_sys.rst.eq(self.jtag.sel & self.jtag.capture), + self.cd_sys.clk.eq(self.jtag.tck), + self.cs_n.oe.eq(self.jtag.sel), + self.clk.oe.eq(self.jtag.sel), + self.mosi.oe.eq(self.jtag.sel), + self.miso.oe.eq(0), + # Do not suppress CLK toggles outside CS_N asserted. + # Xilinx USRCCLK0 requires three dummy cycles to do anything + # https://www.xilinx.com/support/answers/52626.html + # This is fine since CS_N changes only on falling CLK. + self.clk.o.eq(~self.jtag.tck), + self.jtag.tdo.eq(self.miso.i), + ] + # Latency calculation (in half cycles): + # 0 (falling TCK, rising CLK): + # JTAG adapter: set TDI + # 1 (rising TCK, falling CLK): + # JTAG2SPI: sample TDI -> set MOSI + # SPI: set MISO + # 2 (falling TCK, rising CLK): + # SPI: sample MOSI + # JTAG2SPI (BSCAN primitive): sample MISO -> set TDO + # 3 (rising TCK, falling CLK): + # JTAG adapter: sample TDO + self.fsm.act("IDLE", + mg.If(self.jtag.tdi & self.jtag.sel & self.jtag.shift, + mg.NextState("HEAD") + ) + ) + self.fsm.act("HEAD", + mg.If(head == 0, + mg.NextState("XFER") + ) + ) + self.fsm.act("XFER", + mg.If(bits == 0, + mg.NextState("IDLE") + ), + ) + self.sync += [ + self.mosi.o.eq(self.jtag.tdi), + self.cs_n.o.eq(~self.fsm.ongoing("XFER")), + mg.If(self.fsm.ongoing("HEAD"), + bits.eq(mg.Cat(self.jtag.tdi, bits)), + head.eq(head - 1) + ), + mg.If(self.fsm.ongoing("XFER"), + bits.eq(bits - 1) + ) + ] + + +class JTAG2SPITest(unittest.TestCase): + def setUp(self): + self.bits = 8 + self.dut = JTAG2SPI(bits=self.bits) + + def test_instantiate(self): + pass + + def test_initial_conditions(self): + def check(): + yield + self.assertEqual((yield self.dut.cs_n.oe), 0) + self.assertEqual((yield self.dut.mosi.oe), 0) + self.assertEqual((yield self.dut.miso.oe), 0) + self.assertEqual((yield self.dut.clk.oe), 0) + mg.run_simulation(self.dut, check()) + + def test_enable(self): + def check(): + yield self.dut.jtag.sel.eq(1) + yield self.dut.jtag.shift.eq(1) + yield + self.assertEqual((yield self.dut.cs_n.oe), 1) + self.assertEqual((yield self.dut.mosi.oe), 1) + self.assertEqual((yield self.dut.miso.oe), 0) + self.assertEqual((yield self.dut.clk.oe), 1) + mg.run_simulation(self.dut, check()) + + def run_seq(self, tdi, tdo, spi=None): + yield self.dut.jtag.sel.eq(1) + yield + yield self.dut.jtag.shift.eq(1) + for di in tdi: + yield self.dut.jtag.tdi.eq(di) + yield + tdo.append((yield self.dut.jtag.tdo)) + if spi is not None: + v = [] + for k in "cs_n clk mosi miso".split(): + t = getattr(self.dut, k) + v.append("{}>".format((yield t.o)) if (yield t.oe) + else "<{}".format((yield t.i))) + spi.append(" ".join(v)) + yield self.dut.jtag.sel.eq(0) + yield + yield self.dut.jtag.shift.eq(0) + yield + + def test_shift(self): + bits = 8 + data = 0x81 + tdi = [0, 0, 1] # dummy from BYPASS TAPs and marker + tdi += [((bits - 1) >> j) & 1 for j in range(self.bits - 1, -1, -1)] + tdi += [(data >> j) & 1 for j in range(bits)] + tdi += [0, 0, 0, 0] # dummy from BYPASS TAPs + tdo = [] + spi = [] + mg.run_simulation(self.dut, self.run_seq(tdi, tdo, spi)) + # print(tdo) + for l in spi: + print(l) + + +class Spartan3(mg.Module): macro = "BSCAN_SPARTAN3" toolchain = "ise" def __init__(self, platform): platform.toolchain.bitgen_opt += " -g compress -g UnusedPin:Pullup" - self.clock_domains.cd_jtag = ClockDomain(reset_less=True) - spi = platform.request("spiflash") - shift = Signal() - tdo = Signal() - sel1 = Signal() - self.comb += [ - self.cd_jtag.clk.eq(spi.clk), - spi.cs_n.eq(~shift | ~sel1), + self.submodules.j2s = j2s = JTAG2SPI(platform.request("spiflash")) + self.specials += [ + mg.Instance( + self.macro, + o_SHIFT=j2s.jtag.shift, o_SEL1=j2s.jtag.sel, + o_CAPTURE=j2s.jtag.capture, + o_DRCK1=j2s.jtag.tck, + o_TDI=j2s.jtag.tdi, i_TDO1=j2s.jtag.tdo, + i_TDO2=0), ] - self.sync.jtag += tdo.eq(spi.miso) - self.specials += Instance(self.macro, - o_DRCK1=spi.clk, o_SHIFT=shift, - o_TDI=spi.mosi, i_TDO1=tdo, i_TDO2=0, - o_SEL1=sel1) + platform.add_period_constraint(j2s.jtag.tck, 6) class Spartan3A(Spartan3): macro = "BSCAN_SPARTAN3A" -class Spartan6(Module): +class Spartan6(mg.Module): toolchain = "ise" def __init__(self, platform): platform.toolchain.bitgen_opt += " -g compress -g UnusedPin:Pullup" - self.clock_domains.cd_jtag = ClockDomain(reset_less=True) - spi = platform.request("spiflash") - shift = Signal() - tdo = Signal() - sel = Signal() - self.comb += self.cd_jtag.clk.eq(spi.clk), spi.cs_n.eq(~shift | ~sel) - self.sync.jtag += tdo.eq(spi.miso) - self.specials += Instance("BSCAN_SPARTAN6", p_JTAG_CHAIN=1, - o_TCK=spi.clk, o_SHIFT=shift, o_SEL=sel, - o_TDI=spi.mosi, i_TDO=tdo) - - -class Series7(Module): + self.submodules.j2s = j2s = JTAG2SPI(platform.request("spiflash")) + # clk = mg.Signal() + self.specials += [ + mg.Instance( + "BSCAN_SPARTAN6", p_JTAG_CHAIN=1, + o_SHIFT=j2s.jtag.shift, o_SEL=j2s.jtag.sel, + o_CAPTURE=j2s.jtag.capture, + o_DRCK=j2s.jtag.tck, + o_TDI=j2s.jtag.tdi, i_TDO=j2s.jtag.tdo), + # mg.Instance("BUFG", i_I=clk, o_O=j2s.jtag.tck) + ] + platform.add_period_constraint(j2s.jtag.tck, 6) + + +class Series7(mg.Module): + toolchain = "vivado" + + def __init__(self, platform): + platform.toolchain.bitstream_commands.extend([ + "set_property BITSTREAM.GENERAL.COMPRESS True [current_design]", + "set_property BITSTREAM.CONFIG.UNUSEDPIN Pullnone [current_design]" + ]) + self.submodules.j2s = j2s = JTAG2SPI(platform.request("spiflash")) + # clk = mg.Signal() + self.specials += [ + mg.Instance( + "BSCANE2", p_JTAG_CHAIN=1, + o_SHIFT=j2s.jtag.shift, o_SEL=j2s.jtag.sel, + o_CAPTURE=j2s.jtag.capture, + o_DRCK=j2s.jtag.tck, + o_TDI=j2s.jtag.tdi, i_TDO=j2s.jtag.tdo), + mg.Instance( + "STARTUPE2", i_CLK=0, i_GSR=0, i_GTS=0, + i_KEYCLEARB=0, i_PACK=1, + i_USRCCLKO=j2s.clk.o, i_USRCCLKTS=~j2s.clk.oe, + i_USRDONEO=1, i_USRDONETS=1), + # mg.Instance("BUFG", i_I=clk, o_O=j2s.jtag.tck) + ] + platform.add_period_constraint(j2s.jtag.tck, 6) + try: + self.comb += [ + platform.request("user_sma_gpio_p").eq(j2s.cs_n.i), + platform.request("user_sma_gpio_n").eq(j2s.clk.o), + platform.request("user_sma_clock_p").eq(j2s.mosi.o), + platform.request("user_sma_clock_n").eq(j2s.miso.i), + ] + except mb.ConstraintError: + pass + + +class Ultrascale(mg.Module): toolchain = "vivado" def __init__(self, platform): @@ -85,20 +285,33 @@ class Series7(Module): "set_property BITSTREAM.GENERAL.COMPRESS True [current_design]", "set_property BITSTREAM.CONFIG.UNUSEDPIN Pullnone [current_design]", ]) - self.clock_domains.cd_jtag = ClockDomain(reset_less=True) - spi = platform.request("spiflash") - clk = Signal() - shift = Signal() - tdo = Signal() - sel = Signal() - self.comb += self.cd_jtag.clk.eq(clk), spi.cs_n.eq(~shift | ~sel) - self.sync.jtag += tdo.eq(spi.miso) - self.specials += Instance("BSCANE2", p_JTAG_CHAIN=1, - o_SHIFT=shift, o_TCK=clk, o_SEL=sel, - o_TDI=spi.mosi, i_TDO=tdo) - self.specials += Instance("STARTUPE2", i_CLK=0, i_GSR=0, i_GTS=0, - i_KEYCLEARB=0, i_PACK=1, i_USRCCLKO=clk, - i_USRCCLKTS=0, i_USRDONEO=1, i_USRDONETS=1) + self.submodules.j2s0 = j2s0 = JTAG2SPI() + self.submodules.j2s1 = j2s1 = JTAG2SPI(platform.request("spiflash")) + di = mg.Signal(4) + self.comb += mg.Cat(j2s0.mosi.i, j2s0.miso.i).eq(di) + self.specials += [ + mg.Instance("BSCANE2", p_JTAG_CHAIN=1, + o_SHIFT=j2s0.jtag.shift, o_SEL=j2s0.jtag.sel, + o_CAPTURE=j2s0.jtag.capture, + o_DRCK=j2s0.jtag.tck, + o_TDI=j2s0.jtag.tdi, i_TDO=j2s0.jtag.tdo), + mg.Instance("BSCANE2", p_JTAG_CHAIN=2, + o_SHIFT=j2s1.jtag.shift, o_SEL=j2s1.jtag.sel, + o_CAPTURE=j2s1.jtag.capture, + o_DRCK=j2s1.jtag.tck, + o_TDI=j2s1.jtag.tdi, i_TDO=j2s1.jtag.tdo), + mg.Instance("STARTUPE3", i_GSR=0, i_GTS=0, + i_KEYCLEARB=0, i_PACK=1, + i_USRDONEO=1, i_USRDONETS=1, + i_USRCCLKO=mg.Mux(j2s0.clk.oe, j2s0.clk.o, j2s1.clk.o), + i_USRCCLKTS=~(j2s0.clk.oe | j2s1.clk.oe), + i_FCSBO=j2s0.cs_n.o, i_FCSBTS=~j2s0.cs_n.oe, + o_DI=di, + i_DO=mg.Cat(j2s0.mosi.o, j2s0.miso.o, 0, 0), + i_DTS=mg.Cat(~j2s0.mosi.oe, ~j2s0.miso.oe, 1, 1)) + ] + platform.add_period_constraint(j2s0.jtag.tck, 6) + platform.add_period_constraint(j2s1.jtag.tck, 6) class XilinxBscanSpi(xilinx.XilinxPlatform): @@ -124,6 +337,7 @@ class XilinxBscanSpi(xilinx.XilinxPlatform): ("fbg484-1", 2): ["L16", None, "H18", "H19", "G18", "F19"], ("fbg676-1", 1): ["C23", None, "B24", "A25", "B22", "A22"], ("ffg901-1", 1): ["V26", None, "R30", "T30", "R28", "T28"], + ("ffg900-1", 1): ["U19", None, "P24", "R25", "R20", "R21"], ("ffg1156-1", 1): ["V30", None, "AA33", "AA34", "Y33", "Y34"], ("ffg1157-1", 1): ["AL33", None, "AN33", "AN34", "AK34", "AL34"], ("ffg1158-1", 1): ["C24", None, "A23", "A24", "B26", "A26"], @@ -132,6 +346,9 @@ class XilinxBscanSpi(xilinx.XilinxPlatform): ("flg1155-1", 1): ["AL28", None, "AE28", "AF28", "AJ29", "AJ30"], ("flg1932-1", 1): ["V32", None, "T33", "R33", "U31", "T31"], ("flg1926-1", 1): ["AK33", None, "AN34", "AN35", "AJ34", "AK34"], + + ("ffva1156-2-e", 1): ["G26", None, "M20", "L20", "R21", "R22"], + ("ffva1156-2-e", "sayma"): ["K21", None, "M20", "L20", "R21", "R22"], } pinouts = { @@ -181,6 +398,7 @@ class XilinxBscanSpi(xilinx.XilinxPlatform): "xc7a75t": ("csg324-1", 1, "LVCMOS25", Series7), "xc7k160t": ("fbg484-1", 2, "LVCMOS25", Series7), "xc7k325t": ("fbg676-1", 1, "LVCMOS25", Series7), + "xc7k325t-debug": ("ffg900-1", 1, "LVCMOS25", Series7), "xc7k355t": ("ffg901-1", 1, "LVCMOS25", Series7), "xc7k410t": ("fbg676-1", 1, "LVCMOS25", Series7), "xc7k420t": ("ffg1156-1", 1, "LVCMOS25", Series7), @@ -197,35 +415,53 @@ class XilinxBscanSpi(xilinx.XilinxPlatform): "xc7vx550t": ("ffg1158-1", 1, "LVCMOS18", Series7), "xc7vx690t": ("ffg1157-1", 1, "LVCMOS18", Series7), "xc7vx980t": ("ffg1926-1", 1, "LVCMOS18", Series7), + + "xcku040": ("ffva1156-2-e", 1, "LVCMOS18", Ultrascale), + "xcku040-sayma": ("ffva1156-2-e", "sayma", "LVCMOS18", Ultrascale), } def __init__(self, device, pins, std, toolchain="ise"): + ios = [self.make_spi(0, pins, std, toolchain)] + if device == "xc7k325t-ffg900-1": # debug + ios += [ + ("user_sma_clock_p", 0, mb.Pins("L25"), mb.IOStandard("LVCMOS25")), + ("user_sma_clock_n", 0, mb.Pins("K25"), mb.IOStandard("LVCMOS25")), + ("user_sma_gpio_p", 0, mb.Pins("Y23"), mb.IOStandard("LVCMOS25")), + ("user_sma_gpio_n", 0, mb.Pins("Y24"), mb.IOStandard("LVCMOS25")), + ] + xilinx.XilinxPlatform.__init__(self, device, ios, toolchain=toolchain) + + @staticmethod + def make_spi(i, pins, std, toolchain): + pu = "PULLUP" if toolchain == "ise" else "PULLUP TRUE" + pd = "PULLDOWN" if toolchain == "ise" else "PULLDOWN TRUE" cs_n, clk, mosi, miso = pins[:4] - io = ["spiflash", 0, - Subsignal("cs_n", Pins(cs_n)), - Subsignal("mosi", Pins(mosi)), - Subsignal("miso", Pins(miso), Misc("PULLUP")), - IOStandard(std), - ] + io = ["spiflash", i, + mb.Subsignal("cs_n", mb.Pins(cs_n), mb.Misc(pu)), + mb.Subsignal("mosi", mb.Pins(mosi), mb.Misc(pu)), + mb.Subsignal("miso", mb.Pins(miso), mb.Misc(pu)), + mb.IOStandard(std), + ] if clk: - io.append(Subsignal("clk", Pins(clk))) + io.append(mb.Subsignal("clk", mb.Pins(clk), mb.Misc(pd))) for i, p in enumerate(pins[4:]): - io.append(Subsignal("pullup{}".format(i), Pins(p), Misc("PULLUP"))) - xilinx.XilinxPlatform.__init__(self, device, [io], toolchain=toolchain) + io.append(mb.Subsignal("pullup{}".format(i), mb.Pins(p), + mb.Misc(pu))) + return io @classmethod - def make(cls, device, errors=False): - pkg, id, std, Top = cls.pinouts[device] + def make(cls, target, errors=False): + pkg, id, std, Top = cls.pinouts[target] pins = cls.packages[(pkg, id)] + device = target.split("-", 1)[0] platform = cls("{}-{}".format(device, pkg), pins, std, Top.toolchain) top = Top(platform) - name = "bscan_spi_{}".format(device) - dir = "build_{}".format(device) + name = "bscan_spi_{}".format(target) try: - platform.build(top, build_name=name, build_dir=dir) + platform.build(top, build_name=name) except Exception as e: print(("ERROR: xilinx_bscan_spi build failed " - "for {}: {}").format(device, e)) + "for {}: {}").format(target, e)) if errors: raise diff --git a/doc/openocd.texi b/doc/openocd.texi index 7f5b72e0..431f11cb 100644 --- a/doc/openocd.texi +++ b/doc/openocd.texi @@ -4913,16 +4913,13 @@ functionality is available through the @command{flash write_bank}, @item @var{ir} ... is loaded into the JTAG IR to map the flash as the JTAG DR. For the bitstreams generated from @file{xilinx_bscan_spi.py} this is the @var{USER1} instruction. -@item @var{dr_length} ... is the length of the DR register. This will be 1 for -@file{xilinx_bscan_spi.py} bitstreams and most other cases. @end itemize @example target create $_TARGETNAME testee -chain-position $_CHIPNAME.fpga set _XILINX_USER1 0x02 -set _DR_LENGTH 1 flash bank $_FLASHNAME spi 0x0 0 0 0 \ - $_TARGETNAME $_XILINX_USER1 $_DR_LENGTH + $_TARGETNAME $_XILINX_USER1 @end example @end deffn diff --git a/src/flash/nor/jtagspi.c b/src/flash/nor/jtagspi.c index a995fc75..a05ff378 100644 --- a/src/flash/nor/jtagspi.c +++ b/src/flash/nor/jtagspi.c @@ -32,14 +32,13 @@ struct jtagspi_flash_bank { const struct flash_device *dev; int probed; uint32_t ir; - uint32_t dr_len; }; FLASH_BANK_COMMAND_HANDLER(jtagspi_flash_bank_command) { struct jtagspi_flash_bank *info; - if (CMD_ARGC < 8) + if (CMD_ARGC < 7) return ERROR_COMMAND_SYNTAX_ERROR; info = malloc(sizeof(struct jtagspi_flash_bank)); @@ -52,7 +51,6 @@ FLASH_BANK_COMMAND_HANDLER(jtagspi_flash_bank_command) info->tap = NULL; info->probed = 0; COMMAND_PARSE_NUMBER(u32, CMD_ARGV[6], info->ir); - COMMAND_PARSE_NUMBER(u32, CMD_ARGV[7], info->dr_len); return ERROR_OK; } @@ -63,9 +61,6 @@ static void jtagspi_set_ir(struct flash_bank *bank) struct scan_field field; uint8_t buf[4]; - if (buf_get_u32(info->tap->cur_instr, 0, info->tap->ir_length) == info->ir) - return; - LOG_DEBUG("loading jtagspi ir"); buf_set_u32(buf, 0, info->tap->ir_length, info->ir); field.num_bits = info->tap->ir_length; @@ -84,28 +79,53 @@ static int jtagspi_cmd(struct flash_bank *bank, uint8_t cmd, uint32_t *addr, uint8_t *data, int len) { struct jtagspi_flash_bank *info = bank->driver_priv; - struct scan_field fields[3]; - uint8_t cmd_buf[4]; + struct scan_field fields[6]; + uint8_t marker = 1; + uint8_t xfer_bits_buf[4]; + uint8_t addr_buf[3]; uint8_t *data_buf; + uint32_t xfer_bits; int is_read, lenb, n; /* LOG_DEBUG("cmd=0x%02x len=%i", cmd, len); */ + is_read = (len < 0); + if (is_read) + len = -len; + n = 0; + + fields[n].num_bits = 1; + fields[n].out_value = ▮ + fields[n].in_value = NULL; + n++; + + xfer_bits = 8 + len - 1; + /* cmd + read/write - 1 due to the counter implementation */ + if (addr) + xfer_bits += 24; + h_u32_to_be(xfer_bits_buf, xfer_bits); + flip_u8(xfer_bits_buf, xfer_bits_buf, 4); + fields[n].num_bits = 32; + fields[n].out_value = xfer_bits_buf; + fields[n].in_value = NULL; + n++; + + cmd = flip_u32(cmd, 8); fields[n].num_bits = 8; - cmd_buf[0] = cmd; - if (addr) { - h_u24_to_be(cmd_buf + 1, *addr); - fields[n].num_bits += 24; - } - flip_u8(cmd_buf, cmd_buf, 4); - fields[n].out_value = cmd_buf; + fields[n].out_value = &cmd; fields[n].in_value = NULL; n++; - is_read = (len < 0); - if (is_read) - len = -len; + if (addr) { + h_u24_to_be(addr_buf, *addr); + flip_u8(addr_buf, addr_buf, 3); + fields[n].num_bits = 24; + fields[n].out_value = addr_buf; + fields[n].in_value = NULL; + n++; + } + lenb = DIV_ROUND_UP(len, 8); data_buf = malloc(lenb); if (lenb > 0) { @@ -114,10 +134,11 @@ static int jtagspi_cmd(struct flash_bank *bank, uint8_t cmd, return ERROR_FAIL; } if (is_read) { - fields[n].num_bits = info->dr_len; + fields[n].num_bits = jtag_tap_count_enabled(); fields[n].out_value = NULL; fields[n].in_value = NULL; n++; + fields[n].out_value = NULL; fields[n].in_value = data_buf; } else { @@ -130,6 +151,7 @@ static int jtagspi_cmd(struct flash_bank *bank, uint8_t cmd, } jtagspi_set_ir(bank); + /* passing from an IR scan to SHIFT-DR clears BYPASS registers */ jtag_add_dr_scan(info->tap, n, fields, TAP_IDLE); jtag_execute_queue(); diff --git a/tcl/cpld/jtagspi.cfg b/tcl/cpld/jtagspi.cfg index 60c3cb10..e720c395 100644 --- a/tcl/cpld/jtagspi.cfg +++ b/tcl/cpld/jtagspi.cfg @@ -6,12 +6,6 @@ if { [info exists JTAGSPI_IR] } { set _JTAGSPI_IR $_USER1 } -if { [info exists DR_LENGTH] } { - set _DR_LENGTH $DR_LENGTH -} else { - set _DR_LENGTH 1 -} - if { [info exists TARGETNAME] } { set _TARGETNAME $TARGETNAME } else { @@ -25,7 +19,7 @@ if { [info exists FLASHNAME] } { } target create $_TARGETNAME testee -chain-position $_CHIPNAME.tap -flash bank $_FLASHNAME jtagspi 0 0 0 0 $_TARGETNAME $_JTAGSPI_IR $_DR_LENGTH +flash bank $_FLASHNAME jtagspi 0 0 0 0 $_TARGETNAME $_JTAGSPI_IR proc jtagspi_init {chain_id proxy_bit} { # load proxy bitstream $proxy_bit and probe spi flash