diff options
author | Brent Stapleton <brent.stapleton@ettus.com> | 2018-07-20 16:07:38 -0700 |
---|---|---|
committer | Brent Stapleton <bstapleton@g.hmc.edu> | 2018-07-23 10:33:34 -0700 |
commit | 5b18614d39f5cebdd8bf3bf6e5acf3a34f204191 (patch) | |
tree | d250c2e3189628e06f1467d2b6001e620b60b8a4 | |
parent | 102fcc0ff897f6ff4ddce03b29d4b57b492d6ead (diff) | |
download | uhd-5b18614d39f5cebdd8bf3bf6e5acf3a34f204191.tar.gz uhd-5b18614d39f5cebdd8bf3bf6e5acf3a34f204191.tar.bz2 uhd-5b18614d39f5cebdd8bf3bf6e5acf3a34f204191.zip |
uio: mpm: Fixup for opening mboard-regs UIO
- Fix the syntax to open mboard-regs UIO objects, and change the open()
and close() functions to be private.
- We were calling open() twice in every context manager line- once
manually, and once in __enter__. This commit corrects those usages, and
allows the context manager to fully manage the opening and closing of
UIO objects.
-rw-r--r-- | mpm/python/usrp_mpm/cores/white_rabbit.py | 2 | ||||
-rw-r--r-- | mpm/python/usrp_mpm/dboard_manager/eiscat.py | 26 | ||||
-rw-r--r-- | mpm/python/usrp_mpm/ethtable.py | 8 | ||||
-rw-r--r-- | mpm/python/usrp_mpm/liberiotable.py | 2 | ||||
-rw-r--r-- | mpm/python/usrp_mpm/periph_manager/e320_periphs.py | 40 | ||||
-rw-r--r-- | mpm/python/usrp_mpm/periph_manager/n3xx_periphs.py | 24 | ||||
-rw-r--r-- | mpm/python/usrp_mpm/sys_utils/uio.py | 31 |
7 files changed, 71 insertions, 62 deletions
diff --git a/mpm/python/usrp_mpm/cores/white_rabbit.py b/mpm/python/usrp_mpm/cores/white_rabbit.py index c30c325e9..eeeb5fd31 100644 --- a/mpm/python/usrp_mpm/cores/white_rabbit.py +++ b/mpm/python/usrp_mpm/cores/white_rabbit.py @@ -45,7 +45,7 @@ class WhiteRabbitRegsControl(object): """ Retrieves and decodes the lock status for the PPS out of the WR core. """ - with self.regs.open(): + with self.regs: ext_sync_status = self.periph_peek32(self.PPSG_ESCR) # bit 2: PPS_VALID # bit 3: TM_VALID (timecode) diff --git a/mpm/python/usrp_mpm/dboard_manager/eiscat.py b/mpm/python/usrp_mpm/dboard_manager/eiscat.py index 808417f0c..341af86b8 100644 --- a/mpm/python/usrp_mpm/dboard_manager/eiscat.py +++ b/mpm/python/usrp_mpm/dboard_manager/eiscat.py @@ -190,7 +190,7 @@ class DboardClockControl(object): """ Enables or disables the MMCM outputs. """ - with self.regs.open(): + with self.regs: if enable: self.poke32(self.RADIO_CLK_ENABLES, 0x011) else: @@ -202,7 +202,7 @@ class DboardClockControl(object): """ self.log.trace("Disabling all Radio Clocks, then resetting MMCM...") self.enable_outputs(False) - with self.regs.open(): + with self.regs: self.poke32(self.RADIO_CLK_MMCM, 0x1) def enable_mmcm(self): @@ -212,7 +212,7 @@ class DboardClockControl(object): If MMCM is not locked after unreset, an exception is thrown. """ self.log.trace("Un-resetting MMCM...") - with self.regs.open(): + with self.regs: self.poke32(self.RADIO_CLK_MMCM, 0x2) time.sleep(0.5) # Replace with poll and timeout TODO mmcm_locked = bool(self.peek32(self.RADIO_CLK_MMCM) & 0x10) @@ -226,7 +226,7 @@ class DboardClockControl(object): """ Not technically a clocking reg, but related. """ - with self.regs.open(): + with self.regs: return bool(self.peek32(self.MGT_REF_CLK_STATUS) & 0x1) @@ -267,7 +267,7 @@ class JesdCoreEiscat(object): Verify that the JESD core ID is correct. """ expected_id = self.CORE_ID_BASE + self.core_idx - with self.regs.open(): + with self.regs: core_id = self.peek32(self.JESD_SIGNATURE_REG) self.log.trace("Reading JESD core ID: {:x}".format(core_id)) if core_id != expected_id: @@ -301,7 +301,7 @@ class JesdCoreEiscat(object): Returns nothing, but throws on error. """ self.log.trace("Init JESD Deframer...") - with self.regs.open(): + with self.regs: self.poke32(0x40, 0x02) # Force assertion of ADC SYNC self.poke32(0x50, 0x01) # Data = 0 = Scrambler enabled. Data = 1 = disabled. Must match ADC settings. if not self._gt_rx_reset(reset_only=False): @@ -324,7 +324,7 @@ class JesdCoreEiscat(object): """ Power down unused CPLLs and QPLLs """ - with self.regs.open(): + with self.regs: self.poke32(0x00C, 0xFFFC0000) self.log.trace("MGT power enabled readback: {:x}".format(self.peek32(0x00C))) @@ -335,7 +335,7 @@ class JesdCoreEiscat(object): Returns True on success. """ - with self.regs.open(): + with self.regs: self.poke32(0x024, 0x10) # Place the RX MGTs in reset if not reset_only: time.sleep(.001) # Probably not necessary @@ -355,7 +355,7 @@ class JesdCoreEiscat(object): """ Make sure PLLs are locked """ - with self.regs.open(): + with self.regs: self.poke32(0x004, 0x11111111) # Reset CPLLs self.poke32(0x004, 0x11111100) # Unreset the ones we're using time.sleep(0.02) # TODO replace with poll and timeout @@ -379,7 +379,7 @@ class JesdCoreEiscat(object): "JESD Core: Slot {}, ADC {}: Setting polarity control to 0x{:2x}".format( self.slot, self.core_idx, reg_val )) - with self.regs.open(): + with self.regs: self.poke32(0x80, reg_val) @@ -593,7 +593,7 @@ class EISCAT(DboardManagerBase): fashion though. """ self.log.trace("Sending SYSREF via MPM...") - with self.radio_regs.open(): + with self.radio_regs: self.radio_regs.poke32(self.SYSREF_CONTROL, 0x0) self.radio_regs.poke32(self.SYSREF_CONTROL, 0x1) self.radio_regs.poke32(self.SYSREF_CONTROL, 0x0) @@ -692,7 +692,7 @@ class EISCAT(DboardManagerBase): # Enable all channels first due to a signal integrity issue when enabling them # after the LNA enable is asserted. self.log.trace("Enabling power to the daughterboard...") - with regs.open(): + with regs: regs.poke32(self.DB_CH_ENABLES, 0x000000FF) regs.poke32(self.DB_ENABLES, 0x01000000) regs.poke32(self.DB_ENABLES, 0x00010101) @@ -704,7 +704,7 @@ class EISCAT(DboardManagerBase): Turn off power to the dboard. Sequence is reverse of init_power. """ self.log.trace("Disabling power to the daughterboard...") - with regs.open(): + with regs: regs.poke32(self.ADC_CONTROL, 0x00100000) regs.poke32(self.DB_ENABLES, 0x10101010) regs.poke32(self.DB_CH_ENABLES, 0x00000000) # Disable all channels (last) diff --git a/mpm/python/usrp_mpm/ethtable.py b/mpm/python/usrp_mpm/ethtable.py index e3a3035ec..1721f4724 100644 --- a/mpm/python/usrp_mpm/ethtable.py +++ b/mpm/python/usrp_mpm/ethtable.py @@ -41,7 +41,7 @@ class EthDispatcherTable(object): """ self.log.debug("Setting my own IP address to `{}'".format(ip_addr)) ip_addr_int = int(netaddr.IPAddress(ip_addr)) - with self._regs.open(): + with self._regs: self.poke32(self.OWN_IP_OFFSET, ip_addr_int) def set_vita_port(self, port_value=None, port_idx=None): @@ -53,7 +53,7 @@ class EthDispatcherTable(object): port_value = port_value or self.DEFAULT_VITA_PORT[port_idx] assert port_idx in (0) #FIXME: Fix port_idx = 1 port_reg_addr = self.OWN_PORT_OFFSET - with self._regs.open(): + with self._regs: self.poke32(port_reg_addr, port_value) def set_route(self, sid, ip_addr, udp_port, mac_addr=None): @@ -102,7 +102,7 @@ class EthDispatcherTable(object): )) self.poke32(addr, data) - with self._regs.open(): + with self._regs: poke_and_trace( self.SID_IP_OFFSET + sid_offset, ip_addr_int @@ -125,5 +125,5 @@ class EthDispatcherTable(object): self.log.trace("Writing to address 0x{:04X}: 0x{:04X}".format( self.FORWARD_ETH_BCAST_OFFSET, reg_value )) - with self._regs.open(): + with self._regs: self.poke32(self.FORWARD_ETH_BCAST_OFFSET, reg_value) diff --git a/mpm/python/usrp_mpm/liberiotable.py b/mpm/python/usrp_mpm/liberiotable.py index 19226345b..d732eedcb 100644 --- a/mpm/python/usrp_mpm/liberiotable.py +++ b/mpm/python/usrp_mpm/liberiotable.py @@ -47,7 +47,7 @@ class LiberioDispatcherTable(object): self.poke32(addr, data) # Poke reg for destination channel try: - with self._regs.open(): + with self._regs: poke_and_trace( 0 + 4 * sid.dst_ep, dma_channel, diff --git a/mpm/python/usrp_mpm/periph_manager/e320_periphs.py b/mpm/python/usrp_mpm/periph_manager/e320_periphs.py index ee092e248..eab96a483 100644 --- a/mpm/python/usrp_mpm/periph_manager/e320_periphs.py +++ b/mpm/python/usrp_mpm/periph_manager/e320_periphs.py @@ -114,7 +114,7 @@ class MboardRegsControl(object): The return is a tuple of 2 numbers: (major compat number, minor compat number ) """ - with self.regs.open(): + with self.regs: compat_number = self.peek32(self.MB_COMPAT_NUM) minor = compat_number & 0xff major = (compat_number>>16) & 0xff @@ -132,7 +132,7 @@ class MboardRegsControl(object): self.set_fp_gpio_voltage(value) mask = 0xFFFFFFFF ^ ((0b1 << self.MB_GPIO_CTRL_BUFFER_OE_N) | \ (0b1 << self.MB_GPIO_CTRL_EN_VAR_SUPPLY)) - with self.regs.open(): + with self.regs: reg_val = self.peek32(self.MB_GPIO_CTRL) & mask reg_val = reg_val | (not enable << self.MB_GPIO_CTRL_BUFFER_OE_N) | \ (enable << self.MB_GPIO_CTRL_EN_VAR_SUPPLY) @@ -158,7 +158,7 @@ class MboardRegsControl(object): voltage_reg = 2 mask = 0xFFFFFFFF ^ ((0b1 << self.MB_GPIO_CTRL_EN_3V3) | \ (0b1 << self.MB_GPIO_CTRL_EN_2V5)) - with self.regs.open(): + with self.regs: reg_val = self.peek32(self.MB_GPIO_CTRL) & mask reg_val = reg_val | (voltage_reg << self.MB_GPIO_CTRL_EN_2V5) self.log.trace("Writing MB_GPIO_CTRL to 0x{:08X}".format(reg_val)) @@ -170,7 +170,7 @@ class MboardRegsControl(object): """ mask = 0x3 << self.MB_GPIO_CTRL_EN_2V5 voltage = [1.8, 2.5, 3.3] - with self.regs.open(): + with self.regs: reg_val = (self.peek32(self.MB_GPIO_CTRL) & mask) >> self.MB_GPIO_CTRL_EN_2V5 return voltage[reg_val] @@ -179,7 +179,7 @@ class MboardRegsControl(object): Arguments: value {unsigned} -- value is a single bit bit mask of 8 pins GPIO """ - with self.regs.open(): + with self.regs: return self.poke32(self.MB_GPIO_MASTER, value) def get_fp_gpio_master(self): @@ -188,7 +188,7 @@ class MboardRegsControl(object): 0: means the pin is driven by PL 1: means the pin is driven by PS """ - with self.regs.open(): + with self.regs: return self.peek32(self.MB_GPIO_MASTER) & 0xfff def set_fp_gpio_radio_src(self, value): @@ -198,7 +198,7 @@ class MboardRegsControl(object): 00: means the pin is driven by radio 0 01: means the pin is driven by radio 1 """ - with self.regs.open(): + with self.regs: return self.poke32(self.MB_GPIO_RADIO_SRC, value) def get_fp_gpio_radio_src(self): @@ -207,7 +207,7 @@ class MboardRegsControl(object): 00: means the pin is driven by radio 0 01: means the pin is driven by radio 1 """ - with self.regs.open(): + with self.regs: return self.peek32(self.MB_GPIO_RADIO_SRC) & 0xffffff def get_build_timestamp(self): @@ -216,7 +216,7 @@ class MboardRegsControl(object): The return is datetime string with the ISO 8601 format (YYYY-MM-DD HH:MM:SS.mmmmmm) """ - with self.regs.open(): + with self.regs: datestamp_rb = self.peek32(self.MB_DATESTAMP) if datestamp_rb > 0: dt_str = datetime.datetime( @@ -238,7 +238,7 @@ class MboardRegsControl(object): The return is a tuple of 2 numbers: (short git hash, bool: is the tree dirty?) """ - with self.regs.open(): + with self.regs: git_hash_rb = self.peek32(self.MB_GIT_HASH) git_hash = git_hash_rb & 0x0FFFFFFF tree_dirty = ((git_hash_rb & 0xF0000000) > 0) @@ -261,7 +261,7 @@ class MboardRegsControl(object): pps_sel_val = 0b1 << self.MB_CLOCK_CTRL_PPS_SEL_EXT else: assert False, "Cannot set to invalid time source: {}".format(time_source) - with self.regs.open(): + with self.regs: reg_val = self.peek32(self.MB_CLOCK_CTRL) & 0xFFFFFF90 # prevent glitches by writing a cleared value first, then the final value. self.poke32(self.MB_CLOCK_CTRL, reg_val) @@ -284,7 +284,7 @@ class MboardRegsControl(object): else: assert False, "Cannot set to invalid clock source: {}".format(clock_source) mask = 0xFFFFFFFF ^ (0b1 << self.MB_CLOCK_CTRL_REF_SEL) - with self.regs.open(): + with self.regs: reg_val = self.peek32(self.MB_CLOCK_CTRL) & mask reg_val = reg_val | (ref_sel_val << self.MB_CLOCK_CTRL_REF_SEL) self.log.trace("Writing MB_CLOCK_CTRL to 0x{:08X}".format(reg_val)) @@ -295,7 +295,7 @@ class MboardRegsControl(object): Reads the type of the FPGA image currently loaded Returns a string with the type (ie 1G, XG, AU, etc.) """ - with self.regs.open(): + with self.regs: sfp_info_rb = self.peek32(self.MB_SFP_PORT_INFO) # Print the registers values as 32-bit hex values self.log.trace("SFP Info: 0x{0:0{1}X}".format(sfp_info_rb, 8)) @@ -313,7 +313,7 @@ class MboardRegsControl(object): Get GPS LOCK status """ mask = 0b1 << self.MB_GPS_STATUS_LOCK - with self.regs.open(): + with self.regs: reg_val = self.peek32(self.MB_GPS_STATUS) & mask gps_locked = reg_val & 0x1 #FIXME if gps_locked: @@ -326,7 +326,7 @@ class MboardRegsControl(object): Get GPS status """ mask = 0x1F - with self.regs.open(): + with self.regs: gps_status = self.peek32(self.MB_GPS_STATUS) & mask return gps_status @@ -339,7 +339,7 @@ class MboardRegsControl(object): "Enabling" if enable else "Disabling" )) mask = 0xFFFFFFFF ^ (0b1 << self.MB_GPS_CTRL_PWR_EN) - with self.regs.open(): + with self.regs: reg_val = self.peek32(self.MB_GPS_CTRL) & mask reg_val = reg_val | (enable << self.MB_GPS_CTRL_PWR_EN) self.log.trace("Writing MB_GPS_CTRL to 0x{:08X}".format(reg_val)) @@ -350,7 +350,7 @@ class MboardRegsControl(object): Check the status of the reference clock (adf4002) in FPGA. """ mask = 0b1 << self.MB_CLOCK_CTRL_REF_CLK_LOCKED - with self.regs.open(): + with self.regs: reg_val = self.peek32(self.MB_CLOCK_CTRL) locked = (reg_val & mask) > 0 if not locked: @@ -366,7 +366,7 @@ class MboardRegsControl(object): channel mode = "MIMO" for mimo channel mode = "SISO_TX1", "SISO_TX0" for siso tx1, tx0 respectively. """ - with self.regs.open(): + with self.regs: reg_val = self.peek32(self.MB_DBOARD_CTRL) if channel_mode == "MIMO": reg_val = (0b1 << self.MB_DBOARD_CTRL_MIMO) @@ -390,7 +390,7 @@ class MboardRegsControl(object): Check the status of TX LO lock from CTRL_OUT pins from Catalina """ mask = 0b1 << self.MB_DBOARD_STATUS_TX_LOCK - with self.regs.open(): + with self.regs: reg_val = self.peek32(self.MB_DBOARD_STATUS) locked = (reg_val & mask) > 0 if not locked: @@ -404,7 +404,7 @@ class MboardRegsControl(object): Check the status of RX LO lock from CTRL_OUT pins from Catalina """ mask = 0b1 << self.MB_DBOARD_STATUS_RX_LOCK - with self.regs.open(): + with self.regs: reg_val = self.peek32(self.MB_DBOARD_STATUS) locked = (reg_val & mask) > 0 if not locked: diff --git a/mpm/python/usrp_mpm/periph_manager/n3xx_periphs.py b/mpm/python/usrp_mpm/periph_manager/n3xx_periphs.py index 756f0f788..009eb123b 100644 --- a/mpm/python/usrp_mpm/periph_manager/n3xx_periphs.py +++ b/mpm/python/usrp_mpm/periph_manager/n3xx_periphs.py @@ -204,7 +204,7 @@ class MboardRegsControl(object): The return is a tuple of 2 numbers: (major compat number, minor compat number ) """ - with self.regs.open(): + with self.regs: compat_number = self.peek32(self.M_COMPAT_NUM) minor = compat_number & 0xff major = (compat_number>>16) & 0xff @@ -215,7 +215,7 @@ class MboardRegsControl(object): Arguments: value {unsigned} -- value is a single bit bit mask of 12 pins GPIO """ - with self.regs.open(): + with self.regs: return self.poke32(self.MB_GPIO_MASTER, value) def get_fp_gpio_master(self): @@ -224,7 +224,7 @@ class MboardRegsControl(object): 0: means the pin is driven by PL 1: means the pin is driven by PS """ - with self.regs.open(): + with self.regs: return self.peek32(self.MB_GPIO_MASTER) & 0xfff def set_fp_gpio_radio_src(self, value): @@ -236,7 +236,7 @@ class MboardRegsControl(object): 10: means the pin is driven by radio 2 11: means the pin is driven by radio 3 """ - with self.regs.open(): + with self.regs: return self.poke32(self.MB_GPIO_RADIO_SRC, value) def get_fp_gpio_radio_src(self): @@ -247,7 +247,7 @@ class MboardRegsControl(object): 10: means the pin is driven by radio 2 11: means the pin is driven by radio 3 """ - with self.regs.open(): + with self.regs: return self.peek32(self.MB_GPIO_RADIO_SRC) & 0xffffff def get_build_timestamp(self): @@ -256,7 +256,7 @@ class MboardRegsControl(object): The return is datetime string with the ISO 8601 format (YYYY-MM-DD HH:MM:SS.mmmmmm) """ - with self.regs.open(): + with self.regs: datestamp_rb = self.peek32(self.MB_DATESTAMP) if datestamp_rb > 0: dt_str = datetime.datetime( @@ -278,7 +278,7 @@ class MboardRegsControl(object): The return is a tuple of 2 numbers: (short git hash, bool: is the tree dirty?) """ - with self.regs.open(): + with self.regs: git_hash_rb = self.peek32(self.MB_GIT_HASH) git_hash = git_hash_rb & 0x0FFFFFFF tree_dirty = ((git_hash_rb & 0xF0000000) > 0) @@ -317,7 +317,7 @@ class MboardRegsControl(object): else: assert False - with self.regs.open(): + with self.regs: reg_val = self.peek32(self.MB_CLOCK_CTRL) & 0xFFFFFF90 # prevent glitches by writing a cleared value first, then the final value. self.poke32(self.MB_CLOCK_CTRL, reg_val) @@ -332,7 +332,7 @@ class MboardRegsControl(object): self.log.trace("%s PPS/Trig output!", "Enabling" if enable else "Disabling") mask = 0xFFFFFFFF ^ (0b1 << self.MB_CLOCK_CTRL_PPS_OUT_EN) - with self.regs.open(): + with self.regs: # mask the bit to clear it: reg_val = self.peek32(self.MB_CLOCK_CTRL) & mask if enable: @@ -348,7 +348,7 @@ class MboardRegsControl(object): self.log.trace("%s measurement clock MMCM reset...", "Asserting" if reset else "Clearing") mask = 0xFFFFFFFF ^ (0b1 << self.MB_CLOCK_CTRL_MEAS_CLK_RESET) - with self.regs.open(): + with self.regs: # mask the bit to clear it reg_val = self.peek32(self.MB_CLOCK_CTRL) & mask if reset: @@ -362,7 +362,7 @@ class MboardRegsControl(object): Check the status of the MMCM for the measurement clock in the FPGA TDC. """ mask = 0b1 << self.MB_CLOCK_CTRL_MEAS_CLK_LOCKED - with self.regs.open(): + with self.regs: reg_val = self.peek32(self.MB_CLOCK_CTRL) locked = (reg_val & mask) > 0 if not locked: @@ -377,7 +377,7 @@ class MboardRegsControl(object): Reads the type of the FPGA image currently loaded Returns a string with the type (ie HG, XG, AA, etc.) """ - with self.regs.open(): + with self.regs: sfp0_info_rb = self.peek32(self.MB_SFP0_INFO) sfp1_info_rb = self.peek32(self.MB_SFP1_INFO) # Print the registers values as 32-bit hex values diff --git a/mpm/python/usrp_mpm/sys_utils/uio.py b/mpm/python/usrp_mpm/sys_utils/uio.py index c99041492..c724557e6 100644 --- a/mpm/python/usrp_mpm/sys_utils/uio.py +++ b/mpm/python/usrp_mpm/sys_utils/uio.py @@ -23,9 +23,9 @@ def open_uio(label=None, path=None, length=None, read_only=True, offset=None): """Convenience function for creating a UIO object. Use this like you would open() for a file""" uio_obj = UIO(label, path, length, read_only, offset) - uio_obj.open() + uio_obj._open() yield uio_obj - uio_obj.close() + uio_obj._close() def get_all_uio_devs(): @@ -97,17 +97,24 @@ class UIO(object): - Use the instantiation of this class as a context manager (using a `with` statement), like this: + >>> uio0 = UIO(path="/dev/uio0"): + >>> with uio0: + >>> uio0.peek32(addr) + >>> uio0.poke32(addr, value) + + Or like this: + >>> with UIO(path="/dev/uio0") as uio0: >>> uio0.peek32(addr) >>> uio0.poke32(addr, value) - - Manually call open() and close(): + - This is Highly Discouraged, but if you need to, manually call _open() and _close(): >>> uio0 = UIO(path="/dev/uio0") - >>> uio0.open() + >>> uio0._open() >>> uio0.peek32(addr) >>> uio0.poke32(addr, value) - >>> uio0.close() + >>> uio0._close() Arguments: label -- Label of the UIO device. The label is set in the device tree @@ -135,10 +142,12 @@ class UIO(object): else: self.log.trace("Using UIO device by label `{0}'".format(label)) self._path, map_info = find_uio_device(label, self.log) - offset = offset or map_info['offset'] # If we ever support multiple maps, check if this is correct... + # TODO If we ever support multiple maps, check if this is correct... + offset = offset or map_info['offset'] assert offset == 0 # ...and then remove this line length = length or map_info['size'] - self.log.trace("UIO device is being opened read-{0}.".format("only" if read_only else "write")) + self.log.trace("UIO device is being opened read-{0}.".format( + "only" if read_only else "write")) if self._path is None: self.log.error("Could not find a UIO device for label {0}".format(label)) raise RuntimeError("Could not find a UIO device for label {0}".format(label)) @@ -150,13 +159,13 @@ class UIO(object): self._ref_count = 0 def __enter__(self): - return self.open() + return self._open() def __exit__(self, exc_type, exc_value, traceback): - self.close() + self._close() return exc_type is None - def open(self): + def _open(self): """Actually open the UIO device. You need to call this before doing peeks and pokes. See also close(). @@ -169,7 +178,7 @@ class UIO(object): self._ref_count += 1 return self - def close(self): + def _close(self): """Close a UIO device. UIO devices can be problematic with regards to file descriptor leakage, |