; E2File ; ; Upload a file structure into the EEPROM of the SX web-server. This code ; should be used in conjunction with the E2File.exe program on a PC. ; Updated may 11, 2000 to support both parallax and SASM (rev 1.44.6) assemblers. ; Copyright 1999 Celsius Research Ltd ; ; ;***************************************************************************************** ; Target SX ; Uncomment one of the following lines to choose the SX18AC, SX20AC, SX28AC, SX48BD/ES, ; SX48BD, SX52BD/ES or SX52BD. For SX48BD/ES and SX52BD/ES, uncomment both defines, ; SX48_52 and SX48_52_ES. ;***************************************************************************************** ;SX18_20 ;SX28 SX48_52 ;SX48_52_ES ;***************************************************************************************** ; Assembler Used ; Uncomment the following line if using the Parallax SX-Key assembler. SASM assembler ; enabled by default. ;***************************************************************************************** ;SX_Key ;********************************************************************************* ; Assembler directives: ; high speed external osc, turbo mode, 8-level stack, and extended option reg. ; ; SX18/20/28 - 4 pages of program memory and 8 banks of RAM enabled by default. ; SX48/52 - 8 pages of program memory and 16 banks of RAM enabled by default. ; ;********************************************************************************* IFDEF SX_Key ;SX-Key Directives IFDEF SX18_20 ;SX18AC or SX20AC device directives for SX-Key device SX18L,oschs2,turbo,stackx_optionx ENDIF IFDEF SX28 ;SX28AC device directives for SX-Key device SX28L,oschs2,turbo,stackx_optionx ENDIF IFDEF SX48_52_ES ;SX48BD/ES or SX52BD/ES device directives for SX-Key device oschs,turbo,stackx,optionx ELSE IFDEF SX48_52 ;SX48/52/BD device directives for SX-Key device oschs2 ENDIF ENDIF freq 50_000_000 ELSE ;SASM Directives IFDEF SX18_20 ;SX18AC or SX20AC device directives for SASM device SX18,oschs2,turbo,stackx,optionx ENDIF IFDEF SX28 ;SX28AC device directives for SASM device SX28,oschs2,turbo,stackx,optionx ENDIF IFDEF SX48_52_ES ;SX48BD/ES or SX52BD/ES device directives for SASM device SX52,oschs,turbo,stackx,optionx ELSE IFDEF SX48_52 ;SX48BD or SX52BD device directives for SASM device SX52,oschs2 ENDIF ENDIF ENDIF reset ResetVector ID 'EEPROG' Temp = $0F UartBank = $10 UartStatus = UartBank + $0 UartTxStart = UartStatus.0 UartTxMode = UartStatus.1 UartRxAvail = UartStatus.2 UartRxMode = UartStatus.3 UartTxPin = rd.3 ;Output - Idle High UartRxPin = rd.0 ;Input - Idle High Uart9600 = 24 Uart19200 = 12 Uart38400 = 6 Uart57600 = 4 Uart115200 = 2 UartSpeed = Uart57600 UartTxData = UartBank + $1 UartTxBits = UartBank + $2 UartTxBitCount = UartBank + $3 UartTxDivide = UartBank + $4 UartRxData = UartBank + $5 UartRxBits = UartBank + $6 UartRxBitCount = UartBank + $7 UartRxDivide = UartBank + $8 E2Bank = $30 E2DeviceRD = %10100001 E2DeviceWR = %10100000 E2FileSizeH = E2Bank + $0 E2FileSizeL = E2Bank + $1 E2FileChecksumH = E2Bank + $2 E2FileChecksumL = E2Bank + $3 E2AddrH = E2Bank + $4 E2AddrL = E2Bank + $5 E2DataBits = E2Bank + $6 E2BitCount = E2Bank + $7 E2Delay = E2Bank + $8 E2Port = re E2SCLPin = E2Port.0 E2SDAPin = E2Port.1 E2SCLMask = %00000001 E2SDAMask = %00000010 E2SDAInDDR = %11111110 E2SDAOutDDR = %11111100 E2PortInit = %11111111 E2Size = 32*1024 ; ============================================================================== bank52 MACRO 1 bank \1 IF \1 & %10000000 ;SX48BD and SX52BD (production release) bank instruction setb fsr.7 ;modifies FSR bits 4,5 and 6. FSR.7 needs to be set by software. ELSE clrb fsr.7 ENDIF ENDM ; ============================================================================== ; Interrupt Handler ; ============================================================================== ; Description: ; Interrupts every 217 cycles = 4.34us ; ============================================================================== mov FSR, #UartBank ;2 UartTxIsr snb UartTxMode ;1/2 Transmitting ? jmp UartTxDataIsr ;3 Yes => UartTxDataIsr snb UartTxStart ;1/2 Start transmit ? jmp UartTxStartIsr ;3 Yes => UartTxStartIsr UartTxRet UartRxIsr snb UartRxMode ;1/2 Receiving ? jmp UartRxDataIsr ;3 Yes => UartRxDataIsr sb UartRxPin ;1/2 Start bit ? (start bit = 0) jmp UartRxStartIsr ;3 Yes => UartRxStartIsr UartRxRet mov w, #-217 ;1 Interrupt in 217 cycles @ 50MHz retiw ;3 Total Isr Time = x cycles UartTxDataIsr ; Time = 4/15/18 cycles decsz UartTxDivide ;1/2 jmp UartTxRet ;3 Isr Time = +n cycles from UartTxIsr movb UartTxPin, UartTxBits.0 ;4 Output next bit stc ;1 Stop bit (idle = 1) rr UartTxBits ;1 mov UartTxDivide, #UartSpeed ;2 Apply baud rate decsz UartTxBitCount ;1/2 jmp UartTxRet ;3 Isr Time = +n cycles from UartTxIsr clrb UartTxMode ;1 Finished jmp UartTxRet ;3 Isr Time = +n cycles from UartTxIsr UartTxStartIsr mov UartTxBits, UartTxData ;2 Load data for transmission clrb UartTxPin ;1 Output start bit mov UartTxDivide, #UartSpeed ;2 Apply UartSpeed mov UartTxBitCount, #10 ;2 Bit count = 8 data + 1 stop + 1 for stop bit to complete clrb UartTxStart ;1 Clear start mode setb UartTxMode ;1 Enter Tx mode jmp UartTxRet ;3 Isr Time = +n cycles UartRxDataIsr decsz UartRxDivide ;1/2 jmp UartRxRet ;3 Isr Time = +n cycles decsz UartRxBitCount ;1/2 jmp :Read ;3 :Stop mov UartRxData, UartRxBits ;2 Copy bits into UartData clrb UartRxMode ;1 Finished setb UartRxAvail ;1 jmp UartRxRet ;3 Isr Time = +n cycles :Read clc ;1 Determine bit snb UartRxPin ;1/2 Determine bit stc ;1 Determine bit rr UartRxBits ;1 Record bit mov UartRxDivide, #UartSpeed ;2 Apply baud rate jmp UartRxRet ;3 Isr Time = +n cycles UartRxStartIsr mov UartRxDivide, #UartSpeed / 2 ;2 UartDivide = UartSpeed * 0.5 mov UartRxBitCount, #10 ;2 Bit count = 10 (1/2 start, 8 data, 1 stop) setb UartRxMode ;1 Enter rx mode jmp UartRxRet ;3 Isr Time = +n cycles ; ============================================================================== ; ============================================================================== UartGetByte bank52 UartBank :Loop sb UartRxAvail jmp :Loop mov w, UartRxData clrb UartRxAvail retp UartSendByte bank52 UartBank :Loop1 snb UartTxStart jmp :Loop1 :Loop2 snb UartTxMode jmp :Loop2 mov UartTxData, w setb UartTxStart retp ; ============================================================================== ResetVector bank52 UartBank clr UartStatus mov w, #$1F mov m, w mov rd, #$FF mov !rd, #%11110111 mov re, #E2PortInit mov !re, #E2SDAInDDR mov w, #%10011111 ;Enable RTCC int mov !option, w ;Enable RTCC int bank52 E2Bank clr E2AddrH clr E2AddrL Main call @UartGetByte mov Temp, w csne Temp, #'R' jmp ReadFile csne Temp, #'W' jmp WriteBlock csne Temp, #'?' jmp Hello jmp Main ReadFile call @UartGetByte call @E2OpenFile sz ;File open ? (z=true) jmp :Error ;No => indicate error mov w, #'[' ;indicate open call @UartSendByte ;send indication :Loop call @E2ReadFile ;get data byte call @UartSendByte snz ;More bytes ? (z=true) jmp :Loop ;Yes => read next byte mov w, #']' ;indicate complete call @UartSendByte ;send indication jmp Main :Error mov w, #'!' ;indicate error call @UartSendByte ;send indication jmp Main WriteBlock call @UartGetByte bank52 E2Bank mov E2AddrH, w ;store address high call @UartGetByte bank52 E2Bank and w, #%11100000 ;ensure address low = multiple of 32 mov E2AddrL, w ;store address low call @E2WriteStart ;open stream sz ;opened ? jmp :Error ;No => error mov E2AddrL, #32 ;Count 32 bytes mov w, #'[' ;indicate ready call @UartSendByte ;send indication :Loop call @UartGetByte ;get data byte call @E2WriteData ;store data decsz E2AddrL jmp :Loop call @E2WriteComplete ;finish write transaction mov w, #']' ;indicate complete call @UartSendByte ;send indication jmp Main :Error mov w, #'!' ;indicate error call @UartSendByte ;send indication jmp Main Hello mov w, #'#' ;Reply call @UartSendByte ;send indication mov w, #E2Size / 256 ;indicate size call @UartSendByte ;send indication jmp Main ; ============================================================================== org $200 E2Start ;SCL=high, SDA=in mov w, #E2SDAOutDDR ;Prepare to make SDA an output clrb E2SDAPin ;When output SDA will be low mov !E2Port, w ;Make SDA an output => low jmp E2DelaySCLHigh ;Delay & return E2Stop ;SCL=high, SDA=in/out clrb E2SCLPin ;Make SCL go low => can change data mov w, #E2SDAOutDDR ;Prepare to make SDA an output clrb E2SDAPin ;Prepare to output SDA low mov !E2Port, w ;Make SDA an output => low call E2DelaySCLLow ;Delay setb E2SCLPin ;Make SCL go high call E2DelaySCLHigh ;Delay mov w, #E2SDAInDDR ;Prepare to make SDA go high => stop bit mov !E2Port, w ;Release SDA => stop bit call E2DelaySCLHigh ;Delay clz ;Indicate stream closed retp E2WriteToRead ;SCL=high, SDA=in clrb E2SCLPin ;SCL goes low to allow data change call E2DelaySCLLow ;Delay setb E2SCLPin ;Return SCL high call E2DelaySCLHigh ;Delay jmp E2Start E2Write ;SCL=high, SDA=in mov E2DataBits, w ;Store data to be sent mov E2BitCount, #8 ;Send 8 bits :Bit clrb E2SCLPin ;SCL goes low to allow data change rl E2DataBits ;C = bit to send (MSB first) mov w, #E2SDAOutDDR ;Guess bit is a 0 snc ;Should bit be a 1 ? mov w, #E2SDAInDDR ;Yes => Change to 1 clrb E2SDAPin ;SDA low in case of an ouput mov !E2Port, w ;Apply SDA DDR call E2DelaySCLLow ;Delay setb E2SCLPin ;Return SCL high to allow E2 to read data call E2DelaySCLHigh ;Delay decsz E2BitCount ;More bits to send ? jmp :Bit ;Yes => send next bit mov w, #E2SDAInDDR ;Prepare to make SDA go high mov !E2Port, w ;Release SDA pin for ack clrb E2SCLPin ;SCL goes low for ack call E2DelaySCLLow ;Delay setb E2SCLPin ;Return SCL high to read ack call E2DelaySCLHigh ;Delay stz ;Assume a 0 snb E2SDAPin ;Is the data a 1 ? clz ;Yes => change to a 1 retp E2ReadAck ;SCL should be high mov E2BitCount, #8 ;Get 8 bits :Bit clrb E2SCLPin ;SCL goes low to allow data change mov w, #E2SDAInDDR ;Prepare to make SDA go high mov !E2Port, w ;Release SDA pin to allow data read call E2DelaySCLLow ;Delay setb E2SCLPin ;Return SCL high to allow E2 to read data clc ;Assume a 0 snb E2SDAPin ;Is the data a 1 ? stc ;Yes => change to a 1 rl E2DataBits ;Store new bit (MSB first) call E2DelaySCLHigh ;Delay decsz E2BitCount ;More bits to come ? jmp :Bit ;Yes => get next bit clrb E2SCLPin ;SCL goes low to allow data change for ack mov w, #E2SDAOutDDR ;Prepare to make SDA go low for ack clrb E2SDAPin ;SDA low when output mov !E2Port, w ;Force SDA pin low call E2DelaySCLLow ;Delay setb E2SCLPin ;Return SCL high. Note SDA still low call E2DelaySCLHigh ;Delay mov w, E2DataBits ;Data to be returned stz ;Indicate ack retp E2ReadNotAck ;SCL should be high mov E2BitCount, #8 ;Get 8 bits of data :Bit clrb E2SCLPin ;SCL goes low to allow data change mov w, #E2SDAInDDR ;Prepare to make SDA go high mov !E2Port, w ;Release SDA pin to allow data read call E2DelaySCLLow ;Delay setb E2SCLPin ;Return SCL high to allow E2 to read data clc ;Assume a 0 snb E2SDAPin ;Is the data a 1 ? stc ;Yes => change to a 1 rl E2DataBits ;Store new bit (MSB first) call E2DelaySCLHigh ;Delay decsz E2BitCount ;More bits to come ? jmp :Bit ;Yes => get next bit clrb E2SCLPin ;SCL goes low to allow data change for ack call E2DelaySCLLow ;Leave SDA high for not ack, Delay setb E2SCLPin ;Return SCL high. call E2DelaySCLHigh ;Delay mov w, E2DataBits ;Data to be returned clz ;Indicate not ack retp E2DelaySCLLow ;1300ns minimum = 65 instructions mov E2Delay, #15 ;Loop 15 times (4 cycles per loop + 8 for overhead) :Loop decsz E2Delay ;Delay complete ? jmp :Loop ;No => loop again retp E2DelaySCLHigh ;600ns minimum = 30 instructions mov E2Delay, #6 ;Loop 6 times (4 cycles per loop + 8 for overhead) :Loop decsz E2Delay ;Delay complete ? jmp :Loop ;No => loop again retp ; ============================================================================== ; Mode must be DDR E2WriteStart ;Returns Z=true for ready bank52 E2Bank call E2Start ;Send start bit mov w, #E2DeviceWR call E2Write ;Output device code sz ;Ack ? jmp E2Stop ;No => not ready, send stop bit + return z=false mov w, E2AddrH call E2Write ;Output AddrH mov w, E2AddrL call E2Write ;Output AddrL sz ;Ack ? jmp E2Stop ;No => not ready, send stop bit + return z=false retp E2WriteData ;W = data, returns Z=true for ack bank52 E2Bank jmp E2Write E2WriteComplete ;Complete write process bank52 E2Bank jmp E2Stop E2ReadStart ;Returns Z=true for ack bank52 E2Bank call E2Start ;Send start bit mov w, #E2DeviceWR call E2Write ;Output device code sz ;Ack ? jmp E2Stop ;No => not ready, send stop bit + return z=false mov w, E2AddrH call E2Write ;Output AddrH mov w, E2AddrL call E2Write ;Output AddrL call E2WriteToRead ;Send start bit mov w, #E2DeviceRD call E2Write ;Output sz ;Ack ? jmp E2Stop ;No => not ready, send stop bit + return z=false retp E2ReadData ;Returns W=data bank52 E2Bank jmp E2ReadAck ;Read byte E2ReadComplete ;Returns W=data bank52 E2Bank call E2ReadNotAck ;Read byte call E2Stop ;Send stop bit mov w, E2DataBits ;Data to be returned retp ; ============================================================================== E2OpenFile ;w = file reference, returns z=true for open bank52 E2Bank mov E2AddrL, w ;AddrL = reference clr E2AddrH ;AddrH = 0 clc ;Prepare to multiply by 2 rl E2AddrL ;Multiply by 2 rl E2AddrH ;Multiply by 2 call E2ReadStart ;Prepare to read sz ;Ack ? retp ;No => return error (z=false) call E2ReadData ;Read MSB of address mov E2AddrH, w ;AddrH = MSB call E2ReadComplete ;Read LSB of address mov E2AddrL, w ;AddrL = LSB call E2ReadStart ;Prepare to read sz ;Ack ? retp ;No => return error (z=false) call E2ReadData ;Read 1st byte mov E2FileSizeH, w ;1st byte = FilesizeH call E2ReadData ;Read 2nd byte mov E2FileSizeL, w ;2nd byte = FilesizeL call E2ReadData ;Read 3rd byte mov E2FileChecksumH, w ;3rd byte = ChecksumH call E2ReadData ;Read 4th byte mov E2FileChecksumL, w ;4th byte = ChecksumL retp ;Return ready to read 1st real data byte E2CloseFile = E2ReadComplete ;Should not be used unless closing file prior to reaching end E2ReadFile ;Returns Z=More (=false for last byte) bank52 E2Bank decsz E2FilesizeL ;More ? jmp E2ReadData ;Yes => read data test E2FilesizeH ;No => check high snz ;More ? jmp E2ReadComplete ;No => read last byte and close file dec E2FilesizeH ;Yes => decrement counter jmp E2ReadData ; read data ; ==============================================================================
file: /Techref/scenix/lib/io/osi3/tcpip/iSXSupportFiles/E2File2.src, 15KB, , updated: 2005/8/19 17:49, local time: 2024/12/22 11:13,
3.144.4.50:LOG IN
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